Your search keyword '"Lutter, G."' showing total 882 results

401. Evaluation of the indirect revascularization method after 3 months chronic myocardial ischemia.

Author

Lutter, G, Martin, J, Dern, P, Sarai, K, Olschewski, M, von Samson, P, Bürkle, M, and Beyersdorf, F

Abstract

The long-term effectiveness of transmyocardial laser revascularization (TMLR) was evaluated in the setting of a severe left anterior descending artery (LAD) stenosis.

Published

2000

402. Probing Majorana neutrinos with double-β decay

Author

GERDA collaboration, Agostini, M., Bakalyarov, A. M., Balata, M., Barabanov, I., Baudis, L., Bauer, C., Bellotti, E., Belogurov, S., Bettini, A., Bezrukov, L., Borowicz, D., Brudanin, V., Brugnera, R., Caldwell, A., Cattadori, C., Chernogorov, A., Comellato, T., D'Andrea, V., Demidova, E. V., Di Marco, N., Domula, A., Doroshkevich, E., Egorov, V., Falkenstein, R., Fomina, M., Gangapshev, A., Garfagnini, A., Giordano, M., Grabmayr, P., Gurentsov, V., Gusev, K., Hakenmüller, J., Hegai, A., Heisel, M., Hemmer, S., Hiller, R., Hofmann, W., Hult, M., Inzhechik, L. V., Csáthy, J. Janicskó, Jochum, J., Junker, M., Kazalov, V., Kermaïdic, Y., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Kish, A., Klimenko, A., Kneißl, R., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Krause, P., Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Miloradovic, M., Mingazheva, R., Misiaszek, M., Moseev, P., Nemchenok, I., Panas, K., Pandola, L., Pelczar, K., Pertoldi, L., Piseri, P., Pullia, A., Ransom, C., Riboldi, S., Rumyantseva, N., Sada, C., Sala, E., Salamida, F., Schmitt, C., Schneider, B., Schönert, S., Schütz, A. -K., Schulz, O., Schwingenheuer, B., Schwarz, M., Selivanenko, O., Shevchik, E., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Stukov, D., Vanhoefer, L., Vasenko, A. A., Veresnikova, A., von Sturm, K., Wagner, V., Wegmann, A., Wester, T., Wiesinger, C., Wojcik, M., Yanovich, E., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zschocke, A., Zsigmond, A. J., Zuber, K., and Zuzel, G.

Subjects

Antiparticle, Particle physics, Physics beyond the Standard Model, VETO, MASS, 01 natural sciences, 7. Clean energy, High Energy Physics - Experiment, Double beta decay, SEARCH, 0103 physical sciences, DETECTORS, 010306 general physics, Nuclear Experiment, GERDA EXPERIMENT, Physics, Multidisciplinary, 010308 nuclear & particles physics, Dirac (video compression format), Fermion, MAJORANA, GE-76, 13. Climate action, Antimatter, PHASE-II, High Energy Physics::Experiment, Neutrino

Abstract

A discovery that neutrinos are not the usual Dirac but Majorana fermions, i.e. identical to their antiparticles, would be a manifestation of new physics with profound implications for particle physics and cosmology. Majorana neutrinos would generate neutrinoless double-$\beta$ ($0\nu\beta\beta$) decay, a matter-creating process without the balancing emission of antimatter. So far, 0$\nu\beta\beta$ decay has eluded detection. The GERDA collaboration searches for the $0\nu\beta\beta$ decay of $^{76}$Ge by operating bare germanium detectors in an active liquid argon shield. With a total exposure of 82.4 kg$\cdot$yr, we observe no signal and derive a lower half-life limit of T$_{1/2}$ > 0.9$\cdot$10$^{26}$ yr (90% C.L.). Our T$_{1/2}$ sensitivity assuming no signal is 1.1$\cdot$10$^{26}$ yr. Combining the latter with those from other $0{\nu}\beta\beta$ decay searches yields a sensitivity to the effective Majorana neutrino mass of 0.07 - 0.16 eV, with corresponding sensitivities to the absolute mass scale in $\beta$ decay of 0.15 - 0.44 eV, and to the cosmological relevant sum of neutrino masses of 0.46 - 1.3 eV., Comment: Authors' main+supplementary text: 13+28 pages, 3+12 figures, 1+7 tables. Definite version to be published in Science

403. Orthotopic transplantation of pig hearts harvested after 30 min of normothermic ischemia: controlled reperfusion with blood cardioplegia containing the Na+-H+-exchange inhibitor HOE 642.

Author

Martin, J, Sarai, K, Yoshitake, M, Haberstroh, J, Takahashi, N, Lutter, G, and Beyersdorf, F

Abstract

The aim of our study was to develop a surgical technique for a successful transplantation of hearts harvested after 30 min of normothermic ischemia without donor pretreatment. Successful transplantation of ischemic compromised hearts could help to expand the severely limited donor pool. We used the pig model because this species is very susceptible to myocardial ischemia. Na+-H+-exchange (NHE) inhibitors have shown excellent protective properties in several in vitro and in vivo models of myocardial ischemia and reperfusion.

Published

1998

404. Successful orthotopic pig heart transplantation from non-heart-beating donors

Author

Martin, J., Sarai, K., Yoshitake, M., Haberstroh, J., Takahashi, N., Lutter, G., and Beyersdorf, F.

Published

1999

405. Transmyocardial Laser Revascularization: Experimental Studies in Healthy Porcine Myocardium

Author

Lutter, G., Martin, J., Takahashi, N., Yoshitake, M., Schwarzkopf, J., Nitzsche, E., and Beyersdorf, F.

Published

1999

406. The cross-sections for the 187Re(n,p)187W and 185Re(n,3n)183Re reactions in the energy range between 13.08 MeV and 19.50 MeV.

Author

Ilić, S., Jovančević, N., Daraban, L., Stroh, H., Oberstedt, S., Hult, M., Bonaldi, C., Geerts, W., Hambsch, F.-J., Lutter, G., Marissens, G., Vidali, M., and Knežević, D.

Subjects

NEUTRON temperature, NUCLEAR reactions, NEUTRONS

Abstract

Using the NAXSUN technique developed at the JRC-Geel, the cross section functions for the neutron induced reactions 187 Re(n,p) 187 W and 185 Re(n,3n) 183 Re have been measured in the energy range between 13.08 MeV and 19.5 MeV. These data are the first experimentally obtained values for those nuclear reactions in this neutron energy range. Obtained results have been compared with existing evaluated data from ENDF/B-VII 0, JEFF 3.3, JEFF 3.2, BROND 3.1, JEF - 2.2, JENDL, ROSFO ND-2010, TENDL-2017, EAF-2010, FENDL-3.1c. The TALYS 1.9 and EMPIRE 3.2.3 calculations were performed using different available models and calculations using several semi-empirical existing formulas. A comparison between theoretical model calculations and experimental results was made. [ABSTRACT FROM AUTHOR]

Published

2020

407. Transmyocardial laser-revascularization: experimental studies on prolonged acute regional ischemia.

Author

Lutter, G, Yoshitake, M, Takahashi, N, Nitzsche, E, Martin, J, Sarai, K, Lutz, C, and Beyersdorf, F

Abstract

This experimental study in pigs was undertaken to answer the question whether TMLR after acute myocardial infarction may improve regional myocardial perfusion, left ventricular function and diminish myocardial necrosis in the area at risk.

Published

1998

408. Optimization of the radiochemical separation and determination for 147Pm and 151Sm in nuclear waste samples.

Author

Llopart-Babot, I., Vasile, M., Qiao, J., Dobney, A., Boden, S., Adriaensen, L., Leermakers, M., Bruggeman, M., Lutter, G., Rades, E., and Happel, S.

Subjects

*INDUCTIVELY coupled plasma mass spectrometry, *WATER cooled reactors, *RADIOACTIVE wastes, *RARE earth metals, *COOLANTS

Abstract

This work describes the development and optimization of the radiochemical separation of 147Pm and 151Sm. The two main challenges addressed were: the radiochemical separation of the lanthanides by using LN Resin and DGA,N Resin, and the quantification of the chemical recovery of 147Pm with a non-isotopic analogue (i.e. neodymium). The applicability of radiochemical separation procedures was investigated by using spiked samples. The optimized radiochemical separation procedure by using LN Resin was applied to a reactor cooling water primary coolant sample with an automated system. Sector Field Inductively Coupled Plasma Mass Spectrometry (SF-ICP-MS) was used to determine the chemical recoveries. [ABSTRACT FROM AUTHOR]

Published

2024

409. Gerda phase II: Search for neutrinoless double beta decay

Author

Agostini, M., Bakalyarov, A. M., Balata, M., Barabanov, I., Baudis, L., Bauer, C., Bellotti, E., Belogurov, S., Bettini, A., Bezrukov, L., Biernat, J., Bode, T., Borowicz, D., Brudanin, V., Brugnera, R., Caldwell, A., Cattadori, C., Chernogorov, A., D’andrea, V., Demidova, E. V., Di Marco, N., Domula, A., Doroshkevich, E., Egorov, V., Falkenstein, R., Gangapshev, A., Garfagnini, A., Giordano, M., Gooch, C., Grabmayr, P., Gurentsov, V., Gusev, K., Hakenmüller, J., Hegai, A., Heisel, M., Hemmer, S., Hiller, R., Hofmann, W., Hult, M., Inzhechik, L. V., Janicskó Csáthy, J., Jochum, J., Junker, M., Kazalov, V., Kermaidic, Y., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Kish, A., Klimenko, A., Kneißl, R., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lebedev, V. I., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Marissens, G., Miloradovic, M., Mingazheva, R., Misiaszek, M., Moseev, P., Nemchenok, I., Panas, K., Pandola, L., Pelczar, K., Pullia, A., Ransom, C., Riboldi, S., Rumyantseva, N., Sada, C., Salamida, F., Schmitt, C., Schneider, B., Schönert, S., Schreiner, J., Schulz, O., Schütz, A. -K, Schwingenheuer, B., Selivanenko, O., Shevchik, E., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Vanhoefer, L., Vasenko, A. A., Veresnikova, A., Sturm, K., Wagner, V., Wegmann, A., Wester, T., Wiesinger, C., Wojcik, M., Yanovich, E., Zhitnikov, I., Zhukov, S. V., Daniya Zinatulina, Zschocke, A., Zsigmond, A. J., and Zuber, K.

410. Search for neutrinoless double beta decay with the Gerda experiment: Phase II

Author

Agostini, M., Allardt, M., Bakalyarov, A. M., Balata, M., Barabanov, I., Baudis, L., Bauer, C., Bellotti, E., Belogurov, S., Belyaev, S. T., Benato, G., Bettini, A., Bezrukov, L., Bode, T., Borowicz, D., Brudanin, V., Brugnera, R., Caldwell, A., Cattadori, C., Chernogorov, A., D Andrea, V., Demidova, E. V., Di Marco, N., Domula, A., Doroshkevich, E., Egorov, V., Falkenstein, R., Frodyma, N., Gangapshev, A., Garfagnini, A., Gooch, C., Grabmayr, P., Gurentsov, V., Gusev, K., Hakenmüller, J., Hegai, A., Heisel, M., Hemmer, S., Hofmann, W., Hult, M., Inzhechik, L. V., Janicskó Csáthy, J., Jochum, J., Junker, M., Kazalov, V., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Kish, A., Klimenko, A., Kneißl, R., Knöpfle, K. T., Kochetov, O., Vasily Kornoukhov, Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lebedev, V. I., Lehnert, B., Liao, H. Y., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Medinaceli, E., Miloradovic, M., Mingazheva, R., Misiaszek, M., Moseev, P., Nemchenok, I., Palioselitis, D., Panas, K., Pandola, L., Pelczar, K., Pullia, A., Riboldi, S., Rumyantseva, N., Sada, C., Salamida, F., Salathe, M., Schmitt, C., Schneider, B., Schönert, S., Schreiner, J., Schulz, O., Schütz, A. -K, Schwingenheuer, B., Selivanenko, O., Shevchik, E., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Vanhoefer, L., Vasenko, A. A., Veresnikova, A., Sturm, K., Wagner, V., Wegmann, A., Wester, T., Wiesinger, C., Wojcik, M., Yanovich, E., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zuber, K., and Zuzel, G.

411. Production, characterization and operation of $$^{76}$$ 76 Ge enriched BEGe detectors in GERDA

Author

Agostini, M., Allardt, M., Andreotti, E., Bakalyarov, A. M., Balata, M., Barabanov, I., Barros, N., Baudis, L., Bauer, C., Becerici-Schmidt, N., Bellotti, E., Belogurov, S., Belyaev, S. T., Benato, G., Bettini, A., Bezrukov, L., Bode, T., Borowicz, D., Brudanin, V., Brugnera, R., Budjáš, D., Caldwell, A., Cattadori, C., Chernogorov, A., D’Andrea, V., Demidova, E. V., Domula, A., Egorov, V., Falkenstein, R., Freund, K., Frodyma, N., Gangapshev, A., Garfagnini, A., Gotti, C., Grabmayr, P., Gurentsov, V., Gusev, K., Hegai, A., Heisel, M., Hemmer, S., Heusser, G., Hofmann, W., Hult, M., Inzhechik, L. V., Ioannucci, L., Janicskó Csáthy, J., Jochum, J., Junker, M., Kazalov, V., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Klimenko, A., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lebedev, V. I., Lehnert, B., Liao, H. Y., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Misiaszek, M., Nemchenok, I., Nisi, S., O’Shaughnessy, C., Palioselitis, D., Pandola, L., Pelczar, K., Pessina, G., Pullia, A., Riboldi, S., Rumyantseva, N., Sada, C., Salathe, M., Schmitt, C., Schreiner, J., Schulz, O., Schütz, A. -K., Schwingenheuer, B., Schönert, S., Shevchik, E., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Strecker, H., Ur, C. A., Vanhoefer, L., Vasenko, A. A., von Sturm, K., Wagner, V., Walter, M., Wegmann, A., Wester, T., Wilsenach, H., Wojcik, M., Yanovich, E., Zavarise, P., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zuber, K., and Zuzel, G.

Subjects

Physics and Astronomy (miscellaneous), Engineering (miscellaneous)

412. Transfemoral tissue engineered pulmonary valved stent implantation

Author

Metzner, A., Stock, U. A., Anselm Uebing, Iino, K., Boldt, J., Cremer, J., and Lutter, G.

413. Liquid argon light collection and veto modeling in GERDA Phase II

Author

Matteo Agostini, Alexander, A., Araujo, G. R., Bakalyarov, A. M., Balata, M., Barabanov, I., Baudis, L., Bauer, C., Belogurov, S., Bettini, A., Bezrukov, L., Biancacci, V., Bossio, E., Bothe, V., Brugnera, R., Caldwell, A., Calgaro, S., Cattadori, C., Chernogorov, A., Chiu, P-J, Comellato, T., D Andrea, V., Demidova, E. V., Di Giacinto, A., Di Marco, N., Doroshkevich, E., Fischer, F., Fomina, M., Gangapshev, A., Garfagnini, A., Gooch, C., Grabmayr, P., Gurentsov, V., Gusev, K., Hakenmüller, J., Hemmer, S., Hofmann, W., Hult, M., Inzhechik, L. V., Janicskó Csáthy, J., Jochum, J., Junker, M., Kazalov, V., Kermaïdic, Y., Khushbakht, H., Kihm, T., Kilgus, K., Kirpichnikov, I. V., Klimenko, A., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Krause, P., Kuzminov, V. V., Laubenstein, M., Lehnert, B., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Manzanillas, L., Marshall, G., Miloradovic, M., Mingazheva, R., Misiaszek, M., Morella, M., Müller, Y., Nemchenok, I., Neuberger, M., Pandola, L., Pelczar, K., Pertoldi, L., Piseri, P., Pullia, A., Rauscher, L., Redchuk, M., Riboldi, S., Rumyantseva, N., Sada, C., Sailer, S., Salamida, F., Schönert, S., Schreiner, J., Schütt, M., Schütz, A-K, Schulz, O., Schwarz, M., Schwingenheuer, B., Selivanenko, O., Shevchik, E., Shirchenko, M., Shtembari, L., Simgen, H., Smolnikov, A., Stukov, D., Sullivan, S., Vasenko, A. A., Veresnikova, A., Vignoli, C., Sturm, K., Wegmann, A., Wester, T., Wiesinger, C., Wojcik, M., Yanovich, E., Zatschler, B., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zschocke, A., Zsigmond, A. J., Zuber, K., and Zuzel, G.

Abstract

The ability to detect liquid argon scintillation light from within a densely packed high-purity germanium detector array allowed the Gerda experiment to reach an exceptionally low background rate in the search for neutrinoless double beta decay of $${}^{76}$$ 76 Ge. Proper modeling of the light propagation throughout the experimental setup, from any origin in the liquid argon volume to its eventual detection by the novel light read-out system, provides insight into the rejection capability and is a necessary ingredient to obtain robust background predictions. In this paper, we present a model of the Gerda liquid argon veto, as obtained by Monte Carlo simulations and constrained by calibration data, and highlight its application for background decomposition.

414. Status of the GERDA experiment

Author

Brugnera, R., Agostini, M., Allardt, M., Andreotti, E., Bakalyarov, A. M., Balata, M., Barabanov, I., Heider, M. B., Barros, N., Baudis, L., Bauer, C., Becerici-Schmidt, N., Bellotti, E., Belogurov, S., Belyaev, S. T., Benato, G., Bettini, A., Bezrukov, L., Bode, T., Brudanin, V., Budjáš, D., Caldwell, A., Cattadori, C., Chernogorov, A., Cossavella, F., Demidova, E. V., Domula, A., Egorov, V., Falkenstein, R., Ferella, A., Freund, K., Frodyma, N., Gangapshev, A., Garfagnini, A., Gotti, C., Grabmayr, P., Gurentsov, V., Gusev, K., Guthikonda, K. K., Hampel, W., Hegai, A., Heisel, M., Hemmer, S., Heusser, G., Hofmann, W., Hult, M., Inzhechik, L. V., Ioannucci, L., Csáthy, J. J., Jochum, J., Junker, M., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Klimenko, A., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lebedev, V. I., Lehnert, B., Liao, H. Y., Lindner, M., Lippi, I., Liu, X., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Machado, A. A., Majorovits, B., Maneschg, W., Misiaszek, M., Nemchenok, I., Nisi, S., O Shaughnessy, C., Pandola, L., Pelczar, K., Pessina, G., Pullia, A., Riboldi, S., Rumyantseva, N., Sada, C., Marco Salathe, Schmitt, C., Schreiner, J., Schulz, O., Schwingenheuer, B., Schönert, S., Shevchik, E., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Strecker, H., Tarka, M., Ur, C. A., Vasenko, A. A., Volynets, O., Sturm, K., Wagner, V., Walter, M., Wegmann, A., Wester, T., Wojcik, M., Yanovich, E., Zavarise, P., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zuber, K., and Zuzel, G.

415. Improved Limit on Neutrinoless Double- β Decay of Ge 76 from GERDA Phase II

Author

Agostini, M., Bakalyarov, A. M., Balata, M., Barabanov, I., Baudis, L., Bauer, C., Bellotti, E., Belogurov, S., Bettini, Alice, Bezrukov, L., Biernat, J., Bode, T., Borowicz, D., Brudanin, V., Brugnera, R., Caldwell, A., Cattadori, C., Chernogorov, A., Comellato, T., D'Andrea, Valerio, Demidova, E. V., Di Marco, N., Domula, A., Doroshkevich, E., Egorov, V., Falkenstein, R., Gangapshev, A., Garfagnini, A., Grabmayr, P., Gurentsov, V., Gusev, K., Hakenmüller, J., Hegai, A., Heisel, M., Hemmer, S., Hiller, R., Hofmann, W., Hult, M., Inzhechik, L. V., Janicskó Csáthy, J., Jochum, J., Junker, M., Kazalov, V., Kermaidic, Y., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Kish, A., Klimenko, A., Kneißl, R., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Miloradovic, M., Mingazheva, R., Misiaszek, M., Moseev, P., Nemchenok, I., Panas, K., Pandola, L., Pelczar, K., Pertoldi, L., Pullia, A., Ransom, C., Riboldi, S., Rumyantseva, N., Sada, C., Salamida, F., Schmitt, C., Schneider, B., Schönert, S., Schütz, A. -K., Schulz, O., Schwingenheuer, B., Selivanenko, O., Shevchik, E., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Vanhoefer, L., Vasenko, A. A., Veresnikova, A., Von Sturm, K., Wagner, V., Wegmann, A., Wester, T., Wiesinger, C., Wojcik, M., Yanovich, E., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zschocke, A., Zsigmond, A. J., Zuber, K., and Zuzel, G.

Subjects

Physics and Astronomy (all)

Abstract

The GERDA experiment searches for the lepton-number-violating neutrinoless double-β decay of ^{76}Ge (^{76}Ge→^{76}Se+2e^{-}) operating bare Ge diodes with an enriched ^{76}Ge fraction in liquid argon. The exposure for broad-energy germanium type (BEGe) detectors is increased threefold with respect to our previous data release. The BEGe detectors feature an excellent background suppression from the analysis of the time profile of the detector signals. In the analysis window a background level of 1.0_{-0.4}^{+0.6}×10^{-3} counts/(keV kg yr) has been achieved; if normalized to the energy resolution this is the lowest ever achieved in any 0νββ experiment. No signal is observed and a new 90% C.L. lower limit for the half-life of 8.0×10^{25} yr is placed when combining with our previous data. The expected median sensitivity assuming no signal is 5.8×10^{25} yr.

416. New observation of α decay of 190Pt to the first excited level of 186Os

Author

Romaniuk, M., Danevich, F., Hult, M., Junghans, A., Dmytro Kasperovych, Kropivyansky, B., Lutter, G., Marissens, G., Polischuk, O., Stroh, H., Tessalina, S., Tretyak, V., and Ware, B.

417. Search for $\nu_\mu\rightarrow\nu_\tau$ oscillation with the OPERA experiment in the CNGS beam

Author

Agafonova, N., Aleksandrov, A., Altinok, O., Anokhina, A., Aoki, S., Ariga, A., Ariga, T., Autiero, D., Badertscher, A., Bagulya, A., Bendhabi, A., Bertolin, A., Bozza, C., Brugiere, T., Brugnera, R., Brunet, F., Brunetti, G., Buontempo, S., Cazes, A., Chaussard, L., Chernyavsky, M., Chiarella, V., Chukanov, A., D Ambrosio, N., Dal Corso, F., Declais, Y., Del Amo Sanchez, P., Lellis, G., Serio, M., Di Capua, F., Di Crescenzo, A., Di Ferdinando, D., Di Marco, N., Dmitrievsky, S., Marcos Dracos, Duchesneau, D., Dusini, S., Dzhatdoev, T., Ebert, J., Egorov, O., Enikeev, R., Ereditato, A., Esposito, L. S., Favier, J., Ferber, T., Fini, R. A., Frekers, D., Fukuda, T., Garfagnini, A., Giacomelli, G., Giorgini, M., Goldberg, J., Gollnitz, C., Golubkov, D., Goncharova, L., Gornushkin, Y., Grella, G., Grianti, F., Guler, A. M., Gustavino, C., Hagner, C., Hamada, K., Hara, T., Hierholzer, M., Hollnagel, A., Hoshino, K., Ieva, M., Ishida, H., Ishiguro, K., Jakovcic, K., Jollet, C., Juget, F., Kamiscioglu, M., Kawada, J., Kim, S. H., Kimura, M., Kitagawa, N., Klicek, B., Knuesel, J., Kodama, K., Kogiso, Y., Komatsu, M., Kose, U., Kreslo, I., Lazzaro, C., Lenkeit, J., Lippi, I., Ljubicic, A., Longhin, A., Loverre, P., Lutter, G., Malgin, A., Mandrioli, G., Mannai, K., Marteau, J., Masuda, H., Matsuo, T., Matveev, V., Mauri, N., Medinaceli, E., Meisel, F., Meregaglia, A., Migliozzi, P., Mikado, S., Miyamoto, S., Monacelli, P., Morishima, K., Moser, U., Muciaccia, M. T., Naganawa, N., Naka, T., Nakamura, M., Nakano, T., Nakatsuka, Y., Naumov, D., Nikitina, V., Niwa, K., Nonoyama, Y., Ogawa, S., Okateva, N., Olchevsky, A., Omura, T., Palamara, O., Paniccia, M., Paoloni, A., Park, B. D., Park, I. G., Pastore, A., Patrizii, L., Pennacchio, E., Pessard, H., Pilipenko, V., Pistillo, C., Polukhina, N., Pozzato, M., Pretzl, K., Pupilli, F., Rescigno, R., Roganova, T., Rokujo, H., Romano, G., Rosa, G., Rostovtseva, I., Rubbia, A., Russo, A., Ryasny, V., Ryazhskaya, O., Sakatani, Y., Sato, O., Sato, Y., Schembri, A., Schmidt-Parzefall, W., Scotto Lavina, L., Sheshukov, A., Shibuya, H., Shoziyoev, G., Simone, S., Sioli, M., Sirignano, C., Sirri, G., Song, J. S., Spinetti, M., Stanco, L., Starkov, N., Stellacci, M., Stipcevic, M., Strauss, T., Strolin, P., Suzuki, K., Takahashi, S., Tenti, M., Terranova, F., Tezuka, I., Tioukov, V., Tolun, P., Trabelsi, A., Tran, T., Tufanli, S., Vilain, P., Vladimirov, M., Votano, L., Vuilleumier, J. L., Wilquet, G., Wonsak, B., Yakushev, V., Yoon, C. S., Yoshida, J., Yoshioka, T., Zaitsev, Y., Zemskova, S., Zghiche, A., Zimmermann, R., Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and OPERA

Subjects

High Energy Physics - Phenomenology, Physics::Instrumentation and Detectors, [PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics::Phenomenology, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], High Energy Physics::Experiment, Nuclear Experiment, High Energy Physics - Experiment

Abstract

The OPERA neutrino experiment in the underground Gran Sasso Laboratory (LNGS) was designed to perform the first detection of neutrino oscillations in direct appearance mode in the $\nu_\mu\rightarrow\nu_\tau$ channel, the $\nu_\tau$ signature being the identification of the $\tau$-lepton created in its charged current interaction. The hybrid apparatus consists of a large mass emulsion film/lead target complemented by electronic detectors. It is placed in the high energy long-baseline CERN to LNGS neutrino beam (CNGS) 730 km away from the neutrino source. The observation of a first $\nu_\tau$ candidate event was reported in 2010. In this paper, we present the status of the experiment based on the analysis of the data taken during the first two years of operation (2008-2009). The statistical significance of the one event observed so far is then assessed., Comment: 23 pages, 5 figures

418. Results on $$\beta \beta $$ β β decay with emission of two neutrinos or Majorons in $$^{76}$$ 76 Ge from GERDA Phase I

Author

Agostini, M., Allardt, M., Bakalyarov, A. M., Balata, M., Barabanov, I., Barros, N., Baudis, L., Bauer, C., Becerici-Schmidt, N., Bellotti, E., Belogurov, S., Belyaev, S. T., Benato, G., Bettini, A., Bezrukov, L., Bode, T., Borowicz, D., Brudanin, V., Brugnera, R., Budjáš, D., Caldwell, A., Cattadori, C., Chernogorov, A., D’Andrea, V., Demidova, E. V., di Vacri, A., Domula, A., Doroshkevich, E., Egorov, V., Falkenstein, R., Fedorova, O., Freund, K., Frodyma, N., Gangapshev, A., Garfagnini, A., Grabmayr, P., Gurentsov, V., Gusev, K., Hegai, A., Heisel, M., Hemmer, S., Heusser, G., Hofmann, W., Hult, M., Inzhechik, L. V., Csáthy, J. Janicskó, Jochum, J., Junker, M., Kazalov, V., Kihm, T., Kirpichnikov, I. V., Kirsch, A., Klimenko, A., Knöpfle, K. T., Kochetov, O., Kornoukhov, V. N., Kuzminov, V. V., Laubenstein, M., Lazzaro, A., Lebedev, V. I., Lehnert, B., Liao, H. Y., Lindner, M., Lippi, I., Lubashevskiy, A., Lubsandorzhiev, B., Lutter, G., Macolino, C., Majorovits, B., Maneschg, W., Medinaceli, E., Misiaszek, M., Moseev, P., Nemchenok, I., Palioselitis, D., Panas, K., Pandola, L., Pelczar, K., Pullia, A., Riboldi, S., Rumyantseva, N., Sada, C., Salathe, M., Schmitt, C., Schneider, B., Schönert, S., Schreiner, J., Schütz, A.-K., Schulz, O., Schwingenheuer, B., Selivanenko, O., Shirchenko, M., Simgen, H., Smolnikov, A., Stanco, L., Stepaniuk, M., Ur, C. A., Vanhoefer, L., Vasenko, A. A., Veresnikova, A., von Sturm, K., Wagner, V., Walter, M., Wegmann, A., Wester, T., Wilsenach, H., Wojcik, M., Yanovich, E., Zavarise, P., Zhitnikov, I., Zhukov, S. V., Zinatulina, D., Zuber, K., and Zuzel, G.

Subjects

Physics and Astronomy (miscellaneous), Engineering (miscellaneous)

419. Minimal-invasive, video-assisted vein harvesting for cardiac and vascular surgical procedures.

Author

Lutz, C W, Schlensak, C, Lutter, G, Schöllhorn, J, and Beyersdorf, F

Abstract

Harvesting of the saphenous vein is a routine procedure in coronary and peripheral vascular surgery. It is usually performed using a continuous long skin incision. Minor complications are reported in up to 24% (hematoma, wound dehiscence, infection, pain) and major problems necessitating surgical interventions (bleeding, abscess) in less than 1%. These complications lead to a prolonged hospital stay. To reduce these complications we have used a new endoscopic, video-assisted technique in 17 patients. Harvesting of the total length of the saphenous vein is possible with only one 2-3 cm long incision proximally the knee joint. We conclude that this technique is safe, may reduce the morbidity of saphenous vein harvesting and is associated with a perfect cosmetic result.

Published

1997

420. TMVR—The Kiel experience.

Author

Pommert, NS., Puehler, T., Both, M., Felix, K., Saad, M., Frank, D., Cremer, J., and Lutter, G.

Subjects

*MITRAL valve, *TRICUSPID valve insufficiency, *MITRAL valve insufficiency, *RELIEF valves, *MITRAL stenosis

Abstract

This article discusses the use of transcatheter mitral valve replacement (TMVR) as a treatment option for patients with severe mitral regurgitation. The study analyzed the outcomes of six patients who underwent TMVR at a heart center between April 2021 and October 2022. The patients had mild to moderate heart failure and were at high surgical risk. The results showed that TMVR was successful in reducing mitral regurgitation and improving cardiac function in all patients. However, there were two deaths during the study period, and one patient required surgical removal of the TMVR prosthesis due to complications. Overall, TMVR was deemed a valuable and effective treatment option for patients with severe mitral regurgitation. [Extracted from the article]

Published

2024

421. Microaxial-Pump Supported Coronary Artery Bypass Grafting in Patients with Severely Impaired Systolic Left Ventricular Function.

Author

Panholzer, B., Walter, V., Huenges, K., Dreyer, J., Lutter, G., Alosh, H., Thiem, A., Cremer, J., Kolat, P., and Haneya, A.

Subjects

*CORONARY artery bypass, *HEART assist devices

Abstract

This article discusses the use of a microaxial percutaneous ventricular assist device (pVAD) in patients with severely impaired systolic left ventricular function who are undergoing coronary artery bypass grafting (CABG). The study aimed to examine the effect of preventive left ventricular support using the pVAD on patient outcomes. The results showed that the pVAD therapy was successful in preventing post-cardiotomy cardiogenic shock (PCCS) in all patients, with no need for long-term mechanical circulatory support devices. However, there was an increased incidence of redo-surgery due to bleeding, suggesting the need for improved strategies in coagulation management for these patients. [Extracted from the article]

Published

2024

422. Experimental evaluation of the new indirect revascularization method

Author

Lutter, G., Buerkle, M., Martin, J., von Specht, B.U., Gertler, R., Geiger, A., Sarai, K., and Beyersdorf, F.

Published

1999

423. Laser-revascularization in patients with congestive heart failure, low ejection fraction and unstable angina

Author

Lutter, G., Buerkle, M., Saurbier, B., Frey, M., Nitzsche, E.U., Martin, J., Geiger, A., and Beyersdorf, F.

Published

1999

424. Evaluation of TMLR after 3 months chronic ischemia

Author

Lutter, G., Buerkle, M., Samson, P., Martin, J., Geiger, A., Gertler, R., Sarai, K., and Beyersdorf, F.

Published

1999

425. Histologic Findings of Transmyocardial Laser Channels After Two Hours

Author

Lutter, G., Schwarzkopf, J., Lutz, C., Martin, J., and Beyersdorf, F.

Published

1998

426. First results 24 hours after orthotopic heart transplantation from non-heart-beating donors in pigs

Author

Martin, J. R., Lutter, G. F., Siepe, M. R., Wagner, S. R., Kemper, M. R., Hilberath, J. R., Sarai, K. A., Ihling, C. H., and Beyersdorf, F. R.

Published

2001

427. Crash tests for passenger cars and their relationship to the actual accident occurrence

Author

Appel, H., Lutter, G., and Sigmund, T.

Published

1994

428. A benchmark for Monte Carlo simulations in gamma-ray spectrometry Part II: True coincidence summing correction factors.

Author

Lépy, M.-C., Thiam, C., Anagnostakis, M., Cosar, C., de Blas, A., Dikmen, H., Duch, M.A., Galea, R., Ganea, M.L., Hurtado, S., Karfopoulos, K., Luca, A., Lutter, G., Mitsios, I., Persson, H., Potiriadis, C., Röttger, S., Salpadimos, N., Savva, M.I., and Sima, O.

Subjects

*MONTE Carlo method, *CORRECTION factors, *COINCIDENCE, *GERMANIUM detectors, *GAMMA ray spectrometry, *SPECTROMETRY

Abstract

The goal of this study is to provide a benchmark for the use of Monte Carlo simulation when applied to coincidence summing corrections. The examples are based on simple geometries: two types of germanium detectors and four kinds of sources, to mimic eight typical measurement conditions. The coincidence corrective factors are computed for four radionuclides. The exercise input files and calculation results with practical recommendations are made available for new users on a dedicated webpage. • Examples of the use of Monte Carlo simulation to calculate coincidence summing corrections. • Simple cases with two types of germanium detectors and four kinds of sources were investigated. • Calculation of coincidence summing correction factors for 60Co, 134Cs, 133Ba and 22Na is presented. • Input files, correction factors and recommendations are available on a dedicated webpage. [ABSTRACT FROM AUTHOR]

Published

2024

429. Measurement of the atmospheric muon charge ratio with the OPERA detector

Author

A. Schembri, T. Matsuo, Ante Ljubičić, Alessandro Paoloni, F. Grianti, T. M. Roganova, Dmitry Golubkov, R. Brugnera, J. Lenkeit, Naotaka Naganawa, F. Juget, Pierre Vilain, N. Mauri, J. Ebert, F. Di Capua, M. Tenti, L. Votano, K. Pretzl, C. Lazzaro, V. Boyarkin, Tomoko Ariga, M. De Serio, Antonio Ereditato, C. Sirignano, F. Dal Corso, Hiroki Rokujo, T. Tran, S. Miyamoto, Akitaka Ariga, M. S. Vladimirov, M. Besnier, André Rubbia, Y. Déclais, B. D. Park, Amina Zghiche, Yu. Zaitsev, A. Garfagnini, Nicola D'Ambrosio, C. Oldorf, Caren Hagner, N. Agafonova, Tatsuhiro Naka, T. Brugière, J. Yoshida, Shigeki Aoki, R. A. Fini, F. Meisel, A. G. Olchevski, I. Kreslo, S. Zemskova, H. Shibuya, D. Duchesneau, F. Pupilli, A. Badertscher, O. Egorov, Satoru Takahashi, E. Medinaceli, G. Brunetti, L. Chaussard, F. Terranova, C. Goellnitz, C. Gustavino, C. Fukushima, S. Dmitrievski, M. Spinetti, R. I. Enikeev, G. Rosa, U. Moser, M. Nakamura, Torben Ferber, G. Romano, P. Migliozzi, Maximiliano Sioli, N. Chon-Sen, Krešimir Jakovčić, A. Cazes, Y. A. Gornushkin, A. Russo, N. G. Polukhina, G. Policastro, Yoshihiro Sato, Cécile Jollet, Luigi Salvatore Esposito, J. Knuesel, G. D'Amato, H. Kubota, M. Giorgini, Anselmo Meregaglia, Guillaume Lutter, N. Di Marco, G. Grella, M. T. Muciaccia, S. Simone, L. A. Goncharova, C. Pistillo, V. G. Ryasny, O. G. Ryazhskaya, Mario Stipčević, M. Cozzi, A. Di Giovanni, G. Felici, Seok Kim, M. Kimura, M. Pozzato, M. Kazuyama, P. A. Publichenko, S. Ogawa, Murat Guler, P. Strolin, H. Pessard, I. G. Park, V. A. Matveev, M. Hierholzer, Kimio Niwa, Koichi Kodama, Marcos Dracos, A. M. Anokhina, V. I. Galkin, W. Schmidt Parzefall, Salvatore Buontempo, A. S. Malgin, S. Tufanli, R. Zimmermann, Toshiyuki Nakano, T. Hara, M. M. Chernyavsky, A. Sheshukov, C. S. Yoon, Dmitry V. Naumov, G. De Lellis, U. Kose, D. Di Ferdinando, M. Ieva, S. Mikado, V. Chiarella, M. Paniccia, R. Rescigno, H. Schroeder, A. V. Bagulya, L. Scotto Lavina, P. Monacelli, D. Frekers, Kunihiro Morishima, Björn Wonsak, D. Autiero, V. I. Osedlo, Gaston Wilquet, P. Tolun, T. Yoshioka, J. Favier, Luca Stanco, E. Pennacchio, J. L. Vuilleumier, Alessandra Pastore, T. Fukuda, V. Nikitina, D. Bick, K. Hamada, A. Bertolin, J. S. Song, Masahiro Komatsu, G. Giacomelli, I. Tezuka, V. F. Yakushev, G. Sirri, Artem Chukanov, Cristiano Bozza, V. Tioukov, A. Marotta, Thomas Strauss, B. Klicek, L. Patrizii, G. Mandrioli, I. Rostovtseva, N. I. Starkov, J. Goldberg, Osamu Sato, G. I. Orlova, S. Dusini, K. Hoshino, V. Pilipenko, Y. Nonoyama, A. Longhin, J. Marteau, N. AGAFONOVA, A. ANOKHINA, S. AOKI, A. ARIGA, T. ARIGA, D. AUTIERO, A. BADERTSCHER, A. BAGULYA, A. BERTOLIN, M. BESNIER, D. BICK, V. BOYARKIN, C. BOZZA, T. BRUGIÈRE, R. BRUGNERA, G. BRUNETTI, S. BUONTEMPO, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKY, V. CHIARELLA, N. CHON-SEN, A. CHUKANOV, M. COZZI, G. D’AMATO, F. DAL CORSO, N. D’AMBROSIO, G. DE LELLIS, Y. DÉCLAIS, M. DE SERIO, F. DI CAPUA, D. DI FERDINANDO, A. DI GIOVANNI, N. DI MARCO, S. DMITRIEVSKI, M. DRACOS, D. DUCHESNEAU, S. DUSINI, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L. S. ESPOSITO, J. FAVIER, G. FELICI, T. FERBER, R. FINI, D. FREKERS, T. FUKUDA, C. FUKUSHIMA, V. I. GALKIN, A. GARFAGNINI, G. GIACOMELLI, M. GIORGINI, C. GOELLNITZ, J. GOLDBERG, D. GOLUBKOV, L. GONCHAROVA, Y. GORNUSHKIN, G. GRELLA, F. GRIANTI, M. GULER, C. GUSTAVINO, C. HAGNER, K. HAMADA, T. HARA, M. HIERHOLZER, K. HOSHINO, M. IEVA, K. JAKOVCIC, C. JOLLET, F. JUGET, M. KAZUYAMA, S. H. KIM, M. KIMURA, B. KLICEK, J. KNUESEL, K. KODAMA, M. KOMATSU, U. KOSE, I. KRESLO, H. KUBOTA, C. LAZZARO, J. LENKEIT, A. LJUBICIC, A. LONGHIN, G. LUTTER, A. MALGIN, G. MANDRIOLI, A. MAROTTA, J. MARTEAU, T. MATSUO, V. MATVEEV, N. MAURI, E. MEDINACELI, F. MEISEL, A. MEREGAGLIA, P. MIGLIOZZI, S. MIKADO, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M. T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKANO, D. NAUMOV, V. NIKITINA, K. NIWA, Y. NONOYAMA, S. OGAWA, A. OLCHEVSKI, C. OLDORF, G. ORLOVA, V. OSEDLO, M. PANICCIA, A. PAOLONI, B. D. PARK, I. G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, V. PILIPENKO, C. PISTILLO, G. POLICASTRO, N. POLUKHINA, M. POZZATO, K. PRETZL, P. PUBLICHENKO, F. PUPILLI, R. RESCIGNO, T. ROGANOVA, H. ROKUJO, G. ROMANO, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, V. RYASNY, O. RYAZHSKAYA, O. SATO, Y. SATO, A. SCHEMBRI, W. SCHMIDT PARZEFALL, H. SCHROEDER, L. SCOTTO LAVINA, A. SHESHUKOV, H. SHIBUYA, S. SIMONE, M. SIOLI, C. SIRIGNANO, G. SIRRI, J. S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STIPCEVIC, T. STRAUSS, P. STROLIN, S. TAKAHASHI, M. TENTI, F. TERRANOVA, I. TEZUKA, V. TIOUKOV, P. TOLUN, T. TRAN, S. TUFANLI, P. VILAIN, M. VLADIMIROV, L. VOTANO, J. L. VUILLEUMIER, G. WILQUET, B. WONSAK, V. YAKUSHEV, C. S. YOON, T. YOSHIOKA, J. YOSHIDA, Y. ZAITSEV, S. ZEMSKOVA, A. ZGHICHE, R. ZIMMERMANN, Agafonova, N., Anokhina, A., Aoki, S., Ariga, A., Ariga, T., Autiero, D., Badertscher, A., Bagulya, A., Bertolin, A., Besnier, M., Bick, D., Boyarkin, V., Bozza, C., Brugière, T., Brugnera, R., Brunetti, G., Buontempo, S., Cazes, A., Chaussard, L., Chernyavsky, M., Chiarella, V., Chon Sen, N., Chukanov, A., Cozzi, M., D’Amato, G., Dal corso, F., D’Ambrosio, N., De Lellis, G., Déclais, Y., De Serio, M., DI CAPUA, Francesco, Di Ferdinando, D., Di Giovanni, A., Di Marco, N., Dmitrievski, S., Dracos, M., Duchesneau, D., Dusini, S., Ebert, J., Egorov, O., Enikeev, R., Ereditato, A., Esposito, L. S., Favier, J., Felici, G., Ferber, T., Fini, R., Frekers, D., Fukuda, T., Fukushima, C., Galkin, V. I., Garfagnini, A., Giacomelli, G., Giorgini, M., Goellnitz, C., Goldberg, J., Golubkov, D., Goncharova, L., Gornushkin, Y., Grella, G., Grianti, F., Guler, M., Gustavino, C., Hagner, C., Hamada, K., Hara, T., Hierholzer, M., Hoshino, K., Ieva, M., Jakovcic, K., Jollet, C., Juget, F., Kazuyama, M., Kim, S. H., Kimura, M., Klicek, B., Knuesel, J., Kodama, K., Komatsu, M., Kose, U., Kreslo, I., Kubota, H., Lazzaro, C., Lenkeit, J., Ljubicic, A., Longhin, A., Lutter, G., Malgin, A., Mandrioli, G., Marotta, A., Marteau, J., Matsuo, T., Matveev, V., Mauri, N., Medinaceli, E., Meisel, F., Meregaglia, A., Migliozzi, P., Mikado, S., Miyamoto, S., Monacelli, P., Morishima, K., Moser, U., Muciaccia, M. T., Naganawa, N., Naka, T., Nakamura, M., Nakano, T., Naumov, D., Nikitina, V., Niwa, K., Nonoyama, Y., Ogawa, S., Olchevski, A., Oldorf, C., Orlova, G., Osedlo, V., Paniccia, M., Paoloni, A., Park, B. D., Park, I. G., Pastore, A., Patrizii, L., Pennacchio, E., Pessard, H., Pilipenko, V., Pistillo, C., Policastro, G., Polukhina, N., Pozzato, M., Pretzl, K., Publichenko, P., Pupilli, F., Rescigno, R., Roganova, T., Rokujo, H., Romano, G., Rosa, G., Rostovtseva, I., Rubbia, A., Russo, A., Ryasny, V., Ryazhskaya, O., Sato, O., Sato, Y., Schembri, A., Schmidt parzefall, W., Schroeder, H., Scotto lavina, L., Sheshukov, A., Shibuya, H., Simone, S., Sioli, M., Sirignano, C., Sirri, G., Song, J. S., Spinetti, M., Stanco, L., Starkov, N., Stipcevic, M., Strauss, T., Strolin, P., Takahashi, S., Tenti, M., Terranova, F., Tezuka, I., Tioukov, V., Tolun, P., Tran, T., Tufanli, S., Vilain, P., Vladimirov, M., Votano, L., Vuilleumier, J. L., Wilquet, G., Wonsak, B., Yakushev, V., Yoon, C. S., Yoshioka, T., Yoshida, J., Zaitsev, Y., Zemskova, S., Zghiche, A., Zimmermann, R., Institut de Physique Nucléaire de Lyon (IPNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire Leprince-Ringuet (LLR), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), OPERA, Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Agafonova, N, Anokhina, A, Aoki, S, Ariga, A, Ariga, T, Autiero, D, Badertscher, A, Bagulya, A, Bertolin, A, Besnier, M, Bick, D, Boyarkin, V, Bozza, C, Brugiere, T, Brugnera, R, Brunetti, G, Buontempo, S, Cazes, A, Chaussard, L, Chernyavsky, M, Chiarella, V, Chon Sen, N, Chukanov, A, Cozzi, M, D'Amato, G, Dal Corso, F, D'Ambrosio, N, De Lellis, G, Declais, Y, De Serio, M, Di Capua, F, Di Ferdinando, D, Di Giovanni, A, Di Marco, N, Dmitrievski, S, Dracos, M, Duchesneau, D, Dusini, S, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, Esposito, L, Favier, J, Felici, G, Ferber, T, Fini, R, Frekers, D, Fukuda, T, Fukushima, C, Galkin, V, Garfagnini, A, Giacomelli, G, Giorgini, M, Goellnitz, C, Goldberg, J, Golubkov, D, Goncharova, L, Gornushkin, Y, Grella, G, Grianti, F, Guler, M, Gustavino, C, Hagner, C, Hamada, K, Hara, T, Hierholzer, M, Hoshino, K, Ieva, M, Jakovcic, K, Jollet, C, Juget, F, Kazuyama, M, Kim, S, Kimura, M, Klicek, B, Knuesel, J, Kodama, K, Komatsu, M, Kose, U, Kreslo, I, Kubota, H, Lazzaro, C, Lenkeit, J, Ljubicic, A, Longhin, A, Lutter, G, Malgin, A, Mandrioli, G, Marotta, A, Marteau, J, Matsuo, T, Matveev, V, Mauri, N, Medinaceli, E, Meisel, F, Meregaglia, A, Migliozzi, P, Mikado, S, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, Muciaccia, M, Naganawa, N, Naka, T, Nakamura, M, Nakano, T, Naumov, D, Nikitina, V, Niwa, K, Nonoyama, Y, Ogawa, S, Olchevski, A, Oldorf, C, Orlova, G, Osedlo, V, Paniccia, M, Paoloni, A, Park, B, Park, I, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pilipenko, V, Pistillo, C, Policastro, G, Polukhina, N, Pozzato, M, Pretzl, K, Publichenko, P, Pupilli, F, Rescigno, R, Roganova, T, Rokujo, H, Romano, G, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryasny, V, Ryazhskaya, O, Sato, O, Sato, Y, Schembri, A, Parzefall, W, Schroeder, H, Lavina, L, Sheshukov, A, Shibuya, H, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Song, J, Spinetti, M, Stanco, L, Starkov, N, Stipcevic, M, Strauss, T, Strolin, P, Takahashi, S, Tenti, M, Terranova, F, Tezuka, I, Tioukov, V, Tolun, P, Tran, T, Tufanli, S, Vilain, P, Vladimirov, M, Votano, L, Vuilleumier, J, Wilquet, G, Wonsak, B, Yakushev, V, Yoon, C, Yoshioka, T, Yoshida, J, Zaitsev, Y, Zemskova, S, Zghiche, A, and Zimmermann, R

Subjects

Cosmic-Ray Muon, Particle physics, Physics and Astronomy (miscellaneous), Meson, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, FOS: Physical sciences, Cosmic ray, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Pion, Spectrum, atmospheric muons, charge ratios, OPERA detector, Gran Sasso, 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Macro, 010306 general physics, Engineering (miscellaneous), ATMOSPHERIC MUONS, Physics, Underground Moun, Muon, 010308 nuclear & particles physics, Order (ring theory), MUON SPECTROMETER, UNDERGROUND PHYSICS, Physique des particules élémentaires, Production (computer science), High Energy Physics::Experiment, Energy (signal processing), Particle Physics - Experiment, Lepton

Abstract

The OPERA detector at the Gran Sasso underground laboratory (LNGS) was used to measure the atmospheric muon charge ratio in the TeV energy region. We analyzed 403069 atmospheric muons corresponding to 113.4 days of livetime during the 2008 CNGS run. We computed separately the muon charge ratio for single and for multiple muon events in order to select different energy regions of the primary cosmic ray spectrum and to test the Rμ dependence on the primary composition. The measured Rμ values were corrected taking into account the charge-misidentification errors. Data have also been grouped in five bins of the "vertical surface energy" ℰμcos θ. A fit to a simplified model of muon production in the atmosphere allowed the determination of the pion and kaon charge ratios weighted by the cosmic ray energy spectrum. © Springer-Verlag / Società Italiana di Fisica 2010., 0, SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2010

430. Search for the decay of nature's rarest isotope 180mTa.

Author

Lehnert, B., Hult, M., Lutter, G., and Zuber, K.

Subjects

*ISOTOPES, *METASTABLE states, *RADIOACTIVE decay

Abstract

180mTa is the rarest naturally occurring quasistable isotope and the longest lived metastable state which is known. Its possible decay via the β- or the electron capture channel has never been observed. This article presents a search for the decay of 180mTa with an ultralow background Sandwich HPGe γ spectrometry setup in the HADES underground laboratory. No signal is observed and improved lower partial half-life limits are set with a Bayesian analysis to 5.8 × 1016 yr for the β - channel and 2.0 × 1017 yr for the electron capture channel (90 % credibility). The total half-life of 180mTa is longer than 4.5 × 1016 yr. This is more than a factor of two improvement compared to previous searches. [ABSTRACT FROM AUTHOR]

Published

2017

431. Reference materials produced for a European metrological research project focussing on measurements of NORM.

Author

Larijani, C., Pearce, A.K., Regan, P.H., Russell, B.C., Jerome, S.M., Crespo, M.T., de Felice, P., Lutter, G., Maringer, F., and Mazánová, M.

Subjects

*THORIUM, *RADIOLOGY, *RADIOACTIVITY, *RADIOACTIVE decay, *NUCLEAR reactions, *INDUCTIVELY coupled plasma mass spectrometry

Abstract

Reliable measurement of Naturally Occurring Radioactive Materials is of significance in order to comply with environmental regulations and for radiological protection purposes. This paper discusses the standardisation of three reference materials, namely sand, tuff and TiO 2 to serve as quality control materials for traceability, method validation and instrument calibration. The sample preparation, material characterization via γ, α and Inductively Coupled Plasma Mass Spectrometry (ICP-MS) and the assignment of values for both the 4n (Thorium ) and 4n+2 (Uranium ) decay series are described. [ABSTRACT FROM AUTHOR]

Published

2017

432. Search for the double-beta decay of 82Se to the excited states of 82Kr with NEMO-3

Author

F. Nova, Vit Vorobel, B. Morgan, C. L. Riddle, A. Smetana, Jose Busto, P. Guzowski, Y. Lemière, A. Remoto, A. Chapon, R. Breier, P. Loaiza, A. Basharina-Freshville, F. Xie, Yu. Shitov, J. C. Thomas, J. K. Sedgbeer, A.A. Smolnikov, Y. A. Ramachers, C. Cerna, M. Macko, A. Minotti, X. Sarazin, E. Chauveau, V.E. Kovalenko, Pavel P. Povinec, F. Mauger, G. Eurin, B. Richards, G. Szklarz, F. Perrot, Vl. I. Tretyak, O.I. Kochetov, C. Augier, H. Tedjditi, M. Cascella, S. Blot, S. Blondel, J.P. Cesar, S. Torre, B. Guillon, I. Stekl, Frédéric Nowacki, F. Piquemal, V. Palusova, F. Mamedov, Fedor Šimkovic, Igor Nemchenok, R. Salazar, A. Žukauskas, D. Duchesneau, J. Mott, L. Dawson, C. Vilela, P. Přidal, C. Hugon, Jouni Suhonen, R. Arnold, D. Lalanne, D. Waters, C.S. Sutton, Ch. Marquet, S. Söldner-Rembold, J. J. Evans, H. Gómez, A. Pin, Karol Lang, A. Huber, C. Patrick, A. A. Klimenko, D. Boursette, Ruben Saakyan, Guillaume Lutter, J. L. Reyss, R. B. Pahlka, I. Vanushin, L. Simard, G. Oliviéro, V. I. Tretyak, A. Chopra, Z. J. Liptak, Lukas Fajt, A. S. Barabash, H. Ohsumi, C. Girard-Carillo, Ph. Hubert, X. Garrido, T. Le Noblet, Dominique Durand, C. Macolino, R. L. Flack, M. Bongrand, D.V. Filosofov, S. Jullian, S. I. Konovalov, Masaharu Nomachi, S. Calvez, V. V. Timkin, V. G. Egorov, E. Rukhadze, X.R. Liu, V.I. Umatov, V. Brudanin, A. J. Caffrey, R. Hodák, Karel Smolek, B. Soulé, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Aix Marseille Université (AMU), Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire Souterrain de Modane (LSM - UMR 6417), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Centre National de la Recherche Scientifique (CNRS), NEMO-3, Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), Particle Physics and Astronomy Research Council (PPARC), Science and Technology Facilities Council (STFC), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Sciences et Technologies - Bordeaux 1 (UB)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Arnold, R, Augier, C, Barabash, A, Basharina-Freshville, A, Blondel, S, Blot, S, Bongrand, M, Boursette, D, Breier, R, Brudanin, V, Busto, J, Caffrey, A, Calvez, S, Cascella, M, Cerna, C, Cesar, J, Chapon, A, Chauveau, E, Chopra, A, Dawson, L, Duchesneau, D, Durand, D, Egorov, V, Eurin, G, Evans, J, Fajt, L, Filosofov, D, Flack, R, Garrido, X, Girard-Carillo, C, Gomez, H, Guillon, B, Guzowski, P, Hodak, R, Huber, A, Hubert, P, Hugon, C, Jullian, S, Klimenko, A, Kochetov, O, Konovalov, S, Kovalenko, V, Lalanne, D, Lang, K, Lemiere, Y, Le Noblet, T, Liptak, Z, Liu, X, Loaiza, P, Lutter, G, Macko, M, Macolino, C, Mamedov, F, Marquet, C, Mauger, F, Minotti, A, Morgan, B, Mott, J, Nemchenok, I, Nomachi, M, Nova, F, Nowacki, F, Ohsumi, H, Oliviero, G, Pahlka, R, Palusova, V, Patrick, C, Perrot, F, Pin, A, Piquemal, F, Povinec, P, Pridal, P, Ramachers, Y, Remoto, A, Reyss, J, Richards, B, Riddle, C, Rukhadze, E, Saakyan, R, Salazar, R, Sarazin, X, Sedgbeer, J, Shitov, Y, Simard, L, Simkovic, F, Smetana, A, Smolek, K, Smolnikov, A, Soldner-Rembold, S, Soule, B, Stekl, I, Suhonen, J, Sutton, C, Szklarz, G, Tedjditi, H, Thomas, J, Timkin, V, Torre, S, Tretyak, V, Umatov, V, Vanushin, I, Vilela, C, Vorobel, V, Waters, D, Xie, F, and Zukauskas, A

Subjects

Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Analytical chemistry, Se, Double beta decay, Excited state, Neutrino, FOS: Physical sciences, gamma ray: particle identification, 01 natural sciences, NO, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), PE2_2, Neutrino Ettore Majorana Observatory, 0201 Astronomical and Space Sciences, 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], 82Se, Double beta decay, Neutrino, 82Se, excited state, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], 010306 general physics, physics.ins-det, 0206 Quantum Physics, Physics, hep-ex, 010308 nuclear & particles physics, double-beta decay, Instrumentation and Detectors (physics.ins-det), State (functional analysis), krypton: nuclide, Nuclear & Particles Physics, 0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics, selenium: nuclide, nucleus: excited state, experimental results

Abstract

The double-beta decay of 82Se to the 0 1 + excited state of 82Kr has been studied with the NEMO-3 detector using 0.93 kg of enriched 82Se measured for 4.75 y, corresponding to an exposure of 4.42 kg⋅y. A dedicated analysis to reconstruct the γ-rays has been performed to search for events in the 2e2γ channel. No evidence of a 2 ν β β decay to the 0 1 + state has been observed and a limit of T 1 / 2 2 ν ( Se 82 , 0 g s + → 0 1 + ) > 1.3 × 10 21 y at 90% CL has been set. Concerning the 0 ν β β decay to the 0 1 + state, a limit for this decay has been obtained with T 1 / 2 0 ν ( Se 82 , 0 g s + → 0 1 + ) > 2.3 × 10 22 y at 90% CL, independently from the 2 ν β β decay process. These results are obtained for the first time with a tracko-calo detector, reconstructing every particle in the final state.

Published

2020

433. Detailed studies of $^{100}$Mo two-neutrino double beta decay in NEMO-3

Author

S. Blot, I. Vanushin, Lukas Fajt, M. Bongrand, Frédéric Nowacki, Karel Smolek, R. Saakyan, C. Vilela, B. Soulé, C. Augier, Masaharu Nomachi, Vl. I. Tretyak, S. Jullian, A. Smetana, V.E. Kovalenko, H. Gómez, Y. A. Ramachers, Jose Busto, F. Mauger, J. J. Evans, P. Guzowski, Y. Lemière, A. S. Barabash, S. Calvez, C. Patrick, A. Huber, D.V. Filosofov, M. Macko, Jouni Suhonen, A. Chapon, X. Sarazin, F. Xie, A. Chopra, Z. J. Liptak, A. J. Caffrey, R. Hodák, A. Žukauskas, V.I. Umatov, J.P. Cesar, Ph. Hubert, S. Torre, C. Girard-Carillo, X. Garrido, V. G. Egorov, O.I. Kochetov, S. Söldner-Rembold, F. Mamedov, E. Rukhadze, Yu. Shitov, V. Brudanin, D. Boursette, G. Eurin, D. Waters, J. C. Thomas, J. K. Sedgbeer, S. I. Konovalov, H. Ohsumi, F. Piquemal, T. Le Noblet, E. Chauveau, Guillaume Lutter, Dominique Durand, R. Dvornický, C. Cerna, Kevin Lang, Pavel P. Povinec, Ch. Marquet, C. Macolino, G. Oliviéro, C. Hugon, F. Nova, A. Minotti, A. Pin, R. L. Flack, L. Dawson, D. Lalanne, J. L. Reyss, B. Morgan, Michele Cascella, P. Loaiza, C. L. Riddle, R. B. Pahlka, L. Simard, D. Duchesneau, A. Remoto, R. Salazar, X.R. Liu, C.S. Sutton, R. Arnold, V. I. Tretyak, A.A. Smolnikov, G. Szklarz, B. Guillon, Fedor Šimkovic, P. Přidal, Igor Nemchenok, J. Mott, V. V. Timkin, Vit Vorobel, A. Salamatin, A. Basharina-Freshville, F. Perrot, H. Tedjditi, S. Blondel, I. Stekl, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Aix Marseille Université (AMU), Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire Souterrain de Modane (LSM - UMR 6417), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Centre National de la Recherche Scientifique (CNRS), NEMO-3, Arnold, R, Augier, C, Barabash, A, Basharina-Freshville, A, Blondel, S, Blot, S, Bongrand, M, Boursette, D, Brudanin, V, Busto, J, Caffrey, A, Calvez, S, Cascella, M, Cerna, C, Cesar, J, Chapon, A, Chauveau, E, Chopra, A, Dawson, L, Duchesneau, D, Durand, D, Dvornicky, R, Egorov, V, Eurin, G, Evans, J, Fajt, L, Filosofov, D, Flack, R, Garrido, X, Girard-Carillo, C, Gomez, H, Guillon, B, Guzowski, P, Hodak, R, Huber, A, Hubert, P, Hugon, C, Jullian, S, Kochetov, O, Konovalov, S, Kovalenko, V, Lalanne, D, Lang, K, Lemiere, Y, Noblet, T, Liptak, Z, Liu, X, Loaiza, P, Lutter, G, Macko, M, Macolino, C, Mamedov, F, Marquet, C, Mauger, F, Minotti, A, Morgan, B, Mott, J, Nemchenok, I, Nomachi, M, Nova, F, Nowacki, F, Ohsumi, H, Oliviero, G, Pahlka, R, Patrick, C, Perrot, F, Pin, A, Piquemal, F, Povinec, P, Pridal, P, Ramachers, Y, Remoto, A, Reyss, J, Riddle, C, Rukhadze, E, Saakyan, R, Salamatin, A, Salazar, R, Sarazin, X, Sedgbeer, J, Shitov, Y, Simard, L, Simkovic, F, Smetana, A, Smolek, K, Smolnikov, A, Soldner-Rembold, S, Soule, B, Stekl, I, Suhonen, J, Sutton, C, Szklarz, G, Tedjditi, H, Thomas, J, Timkin, V, Torre, S, Tretyak, V, Umatov, V, Vanushin, I, Vilela, C, Vorobel, V, Waters, D, Xie, F, Zukauskas, A, Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Sciences et Technologies - Bordeaux 1 (UB)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), and Science and Technology Facilities Council (STFC)

Subjects

Particle physics, S029MT, Physics and Astronomy (miscellaneous), FOS: Physical sciences, Elementary particle, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], nucl-ex, invariance: Lorentz, 01 natural sciences, 7. Clean energy, neutrinoless double beta decay, decay modes, Physics, Particles & Fields, double-beta decay: (0neutrino), SEARCH, Double beta decay, 0103 physical sciences, ground state, Nuclear Experiment (nucl-ex), 010306 general physics, 0206 Quantum Physics, Engineering (miscellaneous), Nuclear Experiment, Majoron, S076H2N, Physics, Science & Technology, HALF-LIFE, 010308 nuclear & particles physics, MO-100, High Energy Physics::Phenomenology, Nuclear & Particles Physics, violation: Lorentz, nucleus: transition, STATES, statistics, Physical Sciences, 0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics, spectral, electron: energy spectrum, High Energy Physics::Experiment, Neutrino, Ground state, Energy (signal processing), Radioactive decay, Lepton

Abstract

The full data set of the NEMO-3 experiment has been used to measure the half-life of the two-neutrino double beta decay of $^{100}$Mo to the ground state of $^{100}$Ru, $T_{1/2} = \left[ 6.81 \pm 0.01\,\left(\mbox{stat}\right) ^{+0.38}_{-0.40}\,\left(\mbox{syst}\right) \right] \times10^{18}$ y. The two-electron energy sum, single electron energy spectra and distribution of the angle between the electrons are presented with an unprecedented statistics of $5\times10^5$ events and a signal-to-background ratio of ~80. Clear evidence for the Single State Dominance model is found for this nuclear transition. Limits on Majoron emitting neutrinoless double beta decay modes with spectral indices of n=2,3,7, as well as constraints on Lorentz invariance violation and on the bosonic neutrino contribution to the two-neutrino double beta decay mode are obtained., 11 pages, 9 figures

Published

2019

434. Development of methods for the preparation of radiopure 82Se sources for the SuperNEMO neutrinoless double-beta decay experiment

Author

J. J. Evans, F. Perrot, Masaharu Nomachi, Jihane Maalmi, Dominique Breton, D. Duchesneau, P. Guzowski, Y. Lemière, X.R. Liu, R. Breier, S. Jullian, Hector Gomez, S. I. Konovalov, V. Egorov, F.A. Tashimova, Y. A. Ramachers, G. Claverie, B. Richards, V. B. Brudanin, J.P. Cesar, S. Torre, F. Mamedov, R. Salazar, Karol Holý, D. Waters, X. Sarazin, V. V. Timkin, V.I. Umatov, O.I. Kochetov, A. A. Mirsagatova, C. Vilela, A. V. Rakhimov, C. Hugon, Juergen Thomas, G. Eurin, I. Stekl, J. S. Ricol, J. Mott, I. I. Sadikov, A. S. Barabash, Lukas Fajt, D.V. Filosofov, H. Ohsumi, E. Rukhadze, T. Le Noblet, Ch. Bourgeois, Fedor Šimkovic, Igor Nemchenok, A. Huber, N.I. Rukhadze, A. Minotti, N.A. Mirzayev, L. Simard, A. Smetana, Vit Vorobel, S. Snow, P Pridal, J. Busto, A. Chopra, Z. J. Liptak, C. Cerna, G. Warot, Karol Lang, D. V. Karaivanov, H. Burešova, V. Kovalenko, M. Bongrand, E. Chauveau, Pavel P. Povinec, A. Žukauskas, A. Rebii, F. Nova, J. K. Sedgbeer, B. Morgan, A. Remoto, A. Basharina-Freshville, M. Kauer, R. B. Pahlka, Ruben Saakyan, F. Mauger, Guillaume Lutter, Karel Smolek, X. Garrido, B. Soulé, S. Calvez, A. A. Klimenko, G. Oliviéro, V.I. Tretyak, R. L. Flack, Michele Cascella, Vl. I. Tretyak, R. Hodák, S. Söldner-Rembold, Yu. Shitov, P. Loaiza, Ch. Marquet, B. Guillon, A.A. Smolnikov, M. Zampaolo, S. Blot, M. Spavorova, I. Moreau, E. Birdsall, V. Palušová, Joleen Pater, A. Jeremie, F. Piquemal, M. Macko, F. Delalee, S. De Capua, Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Aix Marseille Université (AMU), Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), Rakhimov, A, Barabash, A, Basharina-Freshville, A, Blot, S, Bongrand, M, Bourgeois, C, Breton, D, Breier, R, Birdsall, E, Brudanin, V, Buresova, H, Busto, J, Calvez, S, Cascella, M, Cerna, C, Cesar, J, Chauveau, E, Chopra, A, Claverie, G, De Capua, S, Delalee, F, Duchesneau, D, Egorov, V, Eurin, G, Evans, J, Fajt, L, Filosofov, D, Flack, R, Garrido, X, Gomez, H, Guillon, B, Guzowski, P, Hodak, R, Holy, K, Huber, A, Hugon, C, Jeremie, A, Jullian, S, Karaivanov, D, Kauer, M, Klimenko, A, Kochetov, O, Konovalov, S, Kovalenko, V, Lang, K, Lemiere, Y, Le Noblet, T, Liptak, Z, Liu, X, Loaiza, P, Lutter, G, Maalmi, J, Macko, M, Mamedov, F, Marquet, C, Mauger, F, Minotti, A, Mirsagatova, A, Mirzayev, N, Moreau, I, Morgan, B, Mott, J, Nemchenok, I, Nomachi, M, Nova, F, Ohsumi, H, Oliviero, G, Pahlka, R, Pater, J, Palusova, V, Perrot, F, Piquemal, F, Povinec, P, Pridal, P, Ramachers, Y, Rebii, A, Remoto, A, Richards, B, Ricol, J, Rukhadze, E, Rukhadze, N, Saakyan, R, Sadikov, I, Salazar, R, Sarazin, X, Sedgbeer, J, Shitov, Y, Simkovic, F, Simard, L, Smetana, A, Smolek, K, Smolnikov, A, Snow, S, Soldner-Rembold, S, Soule, B, Spavorova, M, Stekl, I, Tashimova, F, Thomas, J, Timkin, V, Torre, S, Tretyak, V, Umatov, V, Vilela, C, Vorobel, V, Warot, G, Waters, D, Zampaolo, M, Zukauskas, A, and Université Sciences et Technologies - Bordeaux 1 (UB)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects

SuperNEMO, Technology, purification, ion exchange chromatography, SuperNEMO, LSM Modane, mass spectrometry, neutron activation analysis, purification, Selenium-82, measurement methods, Ion chromatography, chemistry.chemical_element, Selenium-82, fabrication, Mass spectrometry, 01 natural sciences, neutron activation analysi, NO, Neutrino Ettore Majorana Observatory, LSM Modane, double-beta decay: (0neutrino), Decantation, 0103 physical sciences, 0302 Inorganic Chemistry, Chemistry, Inorganic & Nuclear, Physical and Theoretical Chemistry, Neutron activation analysis, 010306 general physics, Nuclear Science & Technology, background: radioactivity, mass spectrometry, [PHYS]Physics [physics], Detection limit, Science & Technology, 010308 nuclear & particles physics, Radiochemistry, IMPURITIES, ion exchange chromatography, Contamination, Chemistry, chemistry, SPECTROMETRY, 13. Climate action, sulfur, Physical Sciences, ion: exchange, Inorganic & Nuclear Chemistry, selenium: production, selenium: nuclide, oxygen, Selenium, neutron activation analysis

Abstract

International audience; AbstractA radiochemical method for producing 82Se sources with an ultra-low level of contamination of natural radionuclides (40K, decay products of 232Th and 238U) has been developed based on cation-exchange chromatographic purification with reverse removal of impurities. It includes chromatographic separation (purification), reduction, conditioning (which includes decantation, centrifugation, washing, grinding, and drying), and 82Se foil production. The conditioning stage, during which highly dispersed elemental selenium is obtained by the reduction of purified selenious acid (H2SeO3) with sulfur dioxide (SO2) represents the crucial step in the preparation of radiopure 82Se samples. The natural selenium (600 g) was first produced in this procedure in order to refine the method. The technique developed was then used to produce 2.5 kg of radiopure enriched selenium (82Se). The produced 82Se samples were wrapped in polyethylene (12 μm thick) and radionuclides present in the sample were analyzed with the BiPo-3 detector. The radiopurity of the plastic materials (chromatographic column material and polypropylene chemical vessels), which were used at all stages, was determined by instrumental neutron activation analysis. The radiopurity of the 82Se foils was checked by measurements with the BiPo-3 spectrometer, which confirmed the high purity of the final product. The measured contamination level for 208Tl was 8–54 μBq/kg, and for 214Bi the detection limit of 600 μBq/kg has been reached.

Published

2019

435. The future of transcatheter mitral valve interventions: competitive or complementary role of repair vs. replacement?

Author

Georg Lutter, Ottavio Alfieri, Lars Søndergaard, Karl-Heinz Kuck, Martyn Thomas, Francesco Maisano, Nicolo Piazza, Ted Feldman, Maurice Buchbinder, Howard C. Herrmann, Martin B. Leon, Alec Vahanian, Stephan Windecker, Maurizio Taramasso, John G. Webb, Joachim Schofer, Shmuel Banai, Gregg W. Stone, Mark Reisman, Carlos E. Ruiz, Olaf Franzen, Volkmar Falk, Georg Nickenig, Michael Mack, Antonio Colombo, Saibal Kar, University of Zurich, Maisano, Francesco, Maisano, F, Alfieri, Ottavio, Banai, S, Buchbinder, M, Colombo, A, Falk, V, Feldman, T, Franzen, O, Herrmann, H, Kar, S, Kuck, Kh, Lutter, G, Mack, M, Nickenig, G, Piazza, N, Reisman, M, Ruiz, Ce, Schofer, J, Sondergaard, L, Stone, Gw, Taramasso, M, Thomas, M, Vahanian, A, Webb, J, Windecker, S, and Leon, Mb

Subjects

Cardiac Catheterization, medicine.medical_specialty, Mitral Valve Annuloplasty, Psychological intervention, 610 Medicine & health, Ventricular Function, Left, 2705 Cardiology and Cardiovascular Medicine, Mitral valve annuloplasty, Mitral valve, medicine, Humans, Intensive care medicine, Bioprosthesis, Heart Valve Prosthesis Implantation, Prosthetic valve, business.industry, MitraClip, Anticoagulants, Mitral Valve Insufficiency, Equipment Design, Surgical procedures, 10020 Clinic for Cardiac Surgery, Surgery, medicine.anatomical_structure, Echocardiography, Fluoroscopy, Heart Valve Prosthesis, Mitral Valve, Cardiology and Cardiovascular Medicine, business, Forecasting

Abstract

Transcatheter mitral interventions has been developed to address an unmet clinical need and may be an alternative therapeutic option to surgery with the intent to provide symptomatic and prognostic benefit. Beyond MitraClip therapy, alternative repair technologies are being developed to expand the transcatheter intervention armamentarium. Recently, the feasibility of transcatheter mitral valve implantation in native non-calcified valves has been reported in very high-risk patients. Acknowledging the lack of scientific evidence to date, it is difficult to predict what the ultimate future role of transcatheter mitral valve interventions will be. The purpose of the present report is to review the current state-of-the-art of mitral valve intervention, and to identify the potential future scenarios, which might benefit most from the transcatheter repair and replacement devices under development.

Published

2015

436. Pulse shape discrimination for GERDA Phase I data

Author

S. Hemmer, V. Wagner, A. A. Vasenko, N. Becerici-Schmidt, J. Schreiner, V. I. Lebedev, Thomas Kihm, H. Strecker, Manfred Lindner, L. V. Inzhechik, T. Wester, A.A. Smolnikov, Alessandro Bettini, M. Barnabe Heider, C. Cattadori, Kai Zuber, Allen Caldwell, V. I. Gurentsov, A. Kirsch, M. Heisel, A. A. Machado, D. Budjáš, E. Bellotti, V. Brudanin, Stefan Schönert, K. K. Guthikonda, Xianpeng Liu, Oliver Schulz, K. von Sturm, A. Domula, L. B. Bezrukov, H. Simgen, E. Shevchik, Alberto Pullia, Bayarto Lubsandorzhiev, Christian Bauer, I. R. Barabanov, K. Freund, A. Garfagnini, M. Junker, L. Ioannucci, Marcin Wójcik, S. V. Zhukov, G. Pessina, P. Grabmayr, V. Egorov, M. Allardt, R. Brugnera, A. Lubashevskiy, Luca Stanco, D. R. Zinatulina, Marc Walter, N. Frodyma, V. V. Kuzminov, J. Janicskó Csáthy, Matteo Agostini, Werner Hofmann, Cinzia Sada, Giovanni Benato, Claudio Gotti, M. Balata, C. Macolino, Mikael Hult, T. Bode, A. D. Ferella, B. Schwingenheuer, I. Zhitnikov, G. Heusser, K. T. Knöpfle, A. Hegai, G. Zuzel, O.I. Kochetov, W. Hampel, S. T. Belyaev, A. M. Gangapshev, E. V. Demidova, S. Belogurov, A. Wegmann, Igor Nemchenok, Bela Majorovits, M. Salathe, S. Nisi, Luciano Pandola, I. V. Kirpichnikov, A. A. Klimenko, N. Rumyantseva, B. Lehnert, O. Volynets, Ivano Lippi, K. N. Gusev, W. Maneschg, E. A. Yanovich, Stefano Riboldi, V. N. Kornoukhov, K. Pelczar, E. Andreotti, M. Misiaszek, M. Shirchenko, Laura Baudis, C. A. Ur, N. Barros, H. Y. Liao, Guillaume Lutter, A. Chernogorov, A. M. Bakalyarov, J. Jochum, F. Cossavella, M. Tarka, R. Falkenstein, C. Schmitt, C.M. O'Shaughnessy, A. Lazzaro, Matthias Laubenstein, P. Zavarise, Agostini, M, Allardt, M, Andreotti, E, Bakalyarov, A, Balata, M, Barabanov, I, Barnabé Heider, M, Barros, N, Baudis, L, Bauer, C, Becerici Schmidt, N, Bellotti, E, Belogurov, S, Belyaev, S, Benato, G, Bettini, A, Bezrukov, L, Bode, T, Brudanin, V, Brugnera, R, Budjáš, D, Caldwell, A, Cattadori, C, Chernogorov, A, Cossavella, F, Demidova, E, Domula, A, Egorov, V, Falkenstein, R, Ferella, A, Freund, K, Frodyma, N, Gangapshev, A, Garfagnini, A, Gotti, C, Grabmayr, P, Gurentsov, V, Gusev, K, Guthikonda, K, Hampel, W, Hegai, A, Heisel, M, Hemmer, S, Heusser, G, Hofmann, W, Hult, M, Inzhechik, L, Ioannucci, L, Janicskó Csáthy, J, Jochum, J, Junker, M, Kihm, T, Kirpichnikov, I, Kirsch, A, Klimenko, A, Knöpfle, K, Kochetov, O, Kornoukhov, V, Kuzminov, V, Laubenstein, M, Lazzaro, A, Lebedev, V, Lehnert, B, Liao, H, Lindner, M, Lippi, I, Liu, X, Lubashevskiy, A, Lubsandorzhiev, B, Lutter, G, Macolino, C, Machado, A, Majorovits, B, Maneschg, W, Misiaszek, M, Nemchenok, I, Nisi, S, O'Shaughnessy, C, Pandola, L, Pelczar, K, Pessina, G, Pullia, A, Riboldi, S, Rumyantseva, N, Sada, C, Salathe, M, Schmitt, C, Schreiner, J, Schulz, O, Schwingenheuer, B, Schönert, S, Shevchik, E, Shirchenko, M, Simgen, H, Smolnikov, A, Stanco, L, Strecker, H, Tarka, M, Ur, C, Vasenko, A, Volynets, O, von Sturm, K, Wagner, V, Walter, M, Wegmann, A, Wester, T, Wojcik, M, Yanovich, E, Zavarise, P, Zhitnikov, I, Zhukov, S, Zinatulina, D, Zuber, K, and Zuzel, G

Subjects

Physics, Particle physics, Physics - Instrumentation and Detectors, Physics and Astronomy (miscellaneous), Detector, Phase (waves), chemistry.chemical_element, FOS: Physical sciences, Germanium, Compton edge, Instrumentation and Detectors (physics.ins-det), Type (model theory), Shape parameter, chemistry, Beta (velocity), Sensitivity (control systems), Nuclear Experiment (nucl-ex), Engineering (miscellaneous), Nuclear Experiment

Abstract

The GERDA experiment located at the LNGS searches for neutrinoless double beta (0\nu\beta\beta) decay of ^{76}Ge using germanium diodes as source and detector. In Phase I of the experiment eight semi-coaxial and five BEGe type detectors have been deployed. The latter type is used in this field of research for the first time. All detectors are made from material with enriched ^{76}Ge fraction. The experimental sensitivity can be improved by analyzing the pulse shape of the detector signals with the aim to reject background events. This paper documents the algorithms developed before the data of Phase I were unblinded. The double escape peak (DEP) and Compton edge events of 2.615 MeV \gamma\ rays from ^{208}Tl decays as well as 2\nu\beta\beta\ decays of ^{76}Ge are used as proxies for 0\nu\beta\beta\ decay. For BEGe detectors the chosen selection is based on a single pulse shape parameter. It accepts 0.92$\pm$0.02 of signal-like events while about 80% of the background events at Q_{\beta\beta}=2039 keV are rejected. For semi-coaxial detectors three analyses are developed. The one based on an artificial neural network is used for the search of 0\nu\beta\beta\ decay. It retains 90% of DEP events and rejects about half of the events around Q_{\beta\beta}. The 2\nu\beta\beta\ events have an efficiency of 0.85\pm0.02 and the one for 0\nu\beta\beta\ decays is estimated to be 0.90^{+0.05}_{-0.09}. A second analysis uses a likelihood approach trained on Compton edge events. The third approach uses two pulse shape parameters. The latter two methods confirm the classification of the neural network since about 90% of the data events rejected by the neural network are also removed by both of them. In general, the selection efficiency extracted from DEP events agrees well with those determined from Compton edge events or from 2\nu\beta\beta\ decays., Comment: 18 pages, 27 figures

Published

2013

437. Momentum measurement by the Multiple Coulomb Scattering method in the OPERA lead emulsion target

Author

Toshiyuki Nakano, G. De Lellis, M. Paniccia, Akitaka Ariga, Kunihiro Morishima, N. Agafonova, Shigeki Aoki, M. S. Vladimirov, K. Pretzl, Amina Zghiche, Mario Stipčević, B. D. Park, S. Zemskova, A. Di Crescenzo, O. Egorov, Satoru Takahashi, Ante Ljubičić, M. Nakamura, L. Chaussard, Yoshihiro Sato, M. T. Muciaccia, M. Hierholzer, C. Göllnitz, Alessandro Paoloni, C. S. Yoon, Antonio Ereditato, J. Yoshida, A. M. Guler, H. Schroeder, A. V. Bagulya, A. M. Anokhina, N. G. Polukhina, L. Stanco, S. Dmitrievski, Björn Wonsak, C. Sirignano, A. Trabelsi, U. Kose, M. Chernyavskiy, L. Patrizii, G. Mandrioli, H. Kubota, D. Autiero, Anselmo Meregaglia, N. Di Marco, B. Klicek, R. Rescigno, L. Scotto Lavina, S. Dusini, F. Dal Corso, F. Brunet, V. Tioukov, I. Rostovtseva, A. Badertscher, A. Longhin, N. I. Starkov, J. Marteau, G. Shoziyoev, A. Garfagnini, S. Ogawa, G. Grella, A. Bertolin, V. Pilipenko, Y. Nonoyama, Masahiro Komatsu, G. Romano, Y. A. Gornushkin, Koichi Kodama, R. Brugnera, E. Pennacchio, Naotaka Naganawa, A. Schembri, F. Meisel, R. Zimmermann, Cristiano Bozza, J. S. Song, T. Matsuo, J. Lenkeit, Maximiliano Sioli, M. Kimura, N. M. Okateva, P. F. Loverre, D. Duchesneau, André Rubbia, G. Giacomelli, Pierre Vilain, Caren Hagner, U. Moser, P. Strolin, Marcos Dracos, I. Kreslo, K Kazuyama, J. Goldberg, Osamu Sato, V. Nikitina, Alexander Olshevskiy, R. I. Enikeev, G. Rosa, Timur Dzhatdoev, M. Besnier, A. Ben Dhahbi, A. Russo, O. G. Ryazhskaya, Krešimir Jakovčić, F. Terranova, M. Tenti, F. Pupilli, I. G. Park, M. Spinetti, C. Pistillo, S. Tufanli, V. G. Ryasny, K. Hoshino, T. Strauss, Guillaume Lutter, K. Manai, Tomoko Ariga, M. De Serio, K. Hamada, Dmitry V. Naumov, Luigi Salvatore Esposito, A. Sheshukov, S. Miyamoto, M. Giorgini, A. Hollnagel, Seok Kim, M. Pozzato, Alessandra Pastore, I. Tezuka, V. F. Yakushev, T. Yoshioka, G. Sirri, M. Ieva, V. A. Matveev, Ivano Lippi, Artem Chukanov, J. Favier, L. A. Goncharova, O Altinok, T. Fukuda, J. L. Vuilleumier, P. Del Amo Sanchez, Kimio Niwa, A. Cazes, Gaston Wilquet, P. Tolun, S. Buontempo, J. Ebert, F. Di Capua, S. Simone, Hiroki Rokujo, G. Brunetti, Dmitry Golubkov, J. Knuesel, T. Tran, Nobuko Kitagawa, C. Gustavino, W. Schmidt-Parzefall, Torben Ferber, T. Hara, P. Migliozzi, F. Juget, H. Ishida, H. Pessard, F. Grianti, T. Brugière, R. A. Fini, V. Chiarella, A. S. Malgin, E. Medinaceli, P. Monacelli, A. B. Aleksandrov, D. Frekers, T. M. Roganova, N. Mauri, Y. Déclais, Nicola D'Ambrosio, Tatsuhiro Naka, L. Votano, D. Di Ferdinando, S. Mikado, Yu. Zaitsev, M. Kamiscioglu, C Lazzaro, Cécile Jollet, H. Shibuya, Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), OPERA, N. AGAFONOVA, A. ALEKSANDROV, O. ALTINOK, A. ANOKHINA, S. AOKI, A. ARIGA, T. ARIGA, D. AUTIERO, A. BADERTSCHER, A. BAGULYA, A. BEN DHAHBI, A. BERTOLIN, M. BESNIER, C. BOZZA, T. BRUGIERE, R. BRUGNERA, F. BRUNET, G. BRUNETTI, S. BUONTEMPO, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKIY, V. CHIARELLA, A. CHUKANOV, N. D’AMBROSIO, F. DAL CORSO, G. DE LELLIS, P. DEL AMO SANCHEZ, Y. DECLAIS, M. DE SERIO, F. DI CAPUA, A. DI CRESCENZO, D. DI FERDINANDO, N. DI MARCO, S. DMITRIEVSKI, M. DRACOS, D. DUCHESNEAU, S. DUSINI, T. DZHATDOEV, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L. S. ESPOSITO, J. FAVIER, T. FERBER, R. A. FINI, D. FREKERS, T. FUKUDA, A. GARFAGNINI, G. GIACOMELLI, M. GIORGINI, C. GOLLNITZ, J. GOLDBERG, D. GOLUBKOV, L. GONCHAROVA, Y. GORNUSHKIN, G. GRELLA, F. GRIANTI, A. M. GULER, C. GUSTAVINO, C. HAGNER, K. HAMADA, T. HARA, M. HIERHOLZER, A. HOLLNAGEL, K. HOSHINO, M. IEVA, H. ISHIDA, K. JAKOVCIC, C. JOLLET, F. JUGET, M. KAMISCIOGLU, K. KAZUYAMA, S. H. KIM, M. KIMURA, N. KITAGAWA, B. KLICEK, J. KNUESEL, K. KODAMA, M. KOMATSU, U. KOSE, I. KRESLO, H. KUBOTA, C. LAZZARO, J. LENKEIT, I. LIPPI, A. LJUBICIC, A. LONGHIN, P. LOVERRE, G. LUTTER, A. MALGIN, G. MANDRIOLI, K. MANAI, J. MARTEAU, T. MATSUO, V. MATVEEV, N. MAURI, E. MEDINACELI, F. MEISEL, A. MEREGAGLIA, P. MIGLIOZZI, S. MIKADO, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M. T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKANO, D. NAUMOV, V. NIKITINA, K. NIWA, Y. NONOYAMA, S. OGAWA, N. OKATEVA, A. OLSHEVSKIY, M. PANICCIA, A. PAOLONI, B. D. PARK, I. G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, K. PRETZL, V. PILIPENKO, C. PISTILLO, N. POLUKHINA, M. POZZATO, F. PUPILLI, R. RESCIGNO, T. ROGANOVA, H. ROKUJO, G. ROMANO, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, V. RYASNY, O. RYAZHSKAYA, O. SATO, Y. SATO, A. SCHEMBRI, W. SCHMIDT-PARZEFALL, H. SCHROEDER, L. SCOTTO LAVINA, A. SHESHUKOV, H. SHIBUYA, G. SHOZIYOEV, S. SIMONE, M. SIOLI, C. SIRIGNANO, G. SIRRI, J. S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STIPCEVIC, T. STRAUSS, P. STROLIN, S. TAKAHASHI, M. TENTI, F. TERRANOVA, I. TEZUKA, V. TIOUKOV, P. TOLUN, A. TRABELSI, T. TRAN, S. TUFANLI, P. VILAIN, M. VLADIMIROV, L. VOTANO, J. L. VUILLEUMIER, G. WILQUET, B. WONSAK, V. YAKUSHEV, C. S. YOON, T. YOSHIOKA, J. YOSHIDA, Y. ZAITSEV, S. ZEMSKOVA, A. ZGHICHE, R. ZIMMERMANN, DIP. DI FISICA, DIPARTIMENTO DI FISICA E ASTRONOMIA 'AUGUSTO RIGHI', Facolta' di SCIENZE MATEMATICHE FISICHE e NATURALI, Da definire, AREA MIN. 02 - Scienze fisiche, Agafonova, N, Aleksandrov, A, Altinok, O, Anokhina, A, Aoki, S, Ariga, A, Ariga, T, Autiero, D, Badertscher, A, Bagulya, A, Ben Dhahbi, A, Bertolin, A, Besnier, M, Bozza, C, Brugière, T, Brugnera, R, Brunet, F, Brunetti, G, Buontempo, S, Cazes, A, Chaussard, L, Chernyavskiy, M, Chiarella, V, Chukanov, A, D'Ambrosio, N, Dal Corso, F, De Lellis, G, del Amo Sanchez, P, Déclais, Y, De Serio, M, Di Capua, F, Di Crescenzo, A, Di Ferdinando, D, Di Marco, N, Dmitrievski, S, Dracos, M, Duchesneau, D, Dusini, S, Dzhatdoev, T, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, S. Esposito, L, Favier, J, Ferber, T, A. Fini, R, Frekers, D, Fukuda, T, Garfagnini, A, Giacomelli, G, Giorgini, M, Göllnitz, C, Goldberg, J, Golubkov, D, Goncharova, L, Gornushkin, Y, Grella, G, Grianti, F, M. Guler, A, Gustavino, C, Hagner, C, Hamada, K, Hara, T, Hierholzer, M, Hollnagel, A, Hoshino, K, Ieva, M, Ishida, H, Jakovcic, K, Jollet, C, Juget, F, Kamiscioglu, M, Kazuyama, K, H. Kim, S, Kimura, M, Kitagawa, N, Klicek, B, Knuesel, J, Kodama, K, Komatsu, M, Kose, U, Kreslo, I, Kubota, H, Lazzaro, C, Lenkeit, J, Lippi, I, Ljubicic, A, Longhin, A, Loverre, P, Lutter, G, Malgin, A, Mandrioli, G, Manai, K, Marteau, J, Matsuo, T, Matveev, V, Mauri, N, Medinaceli, E, Meisel, F, Meregaglia, A, Migliozzi, P, Mikado, S, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, T. Muciaccia, M, Naganawa, N, Naka, T, Nakamura, M, Nakano, T, Naumov, D, Nikitina, V, Niwa, K, Nonoyama, Y, Ogawa, S, Okateva, N, Olshevskiy, A, Paniccia, M, Paoloni, A, D. Park, B, G. Park, I, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pretzl, K, Pilipenko, V, Pistillo, C, Polukhina, N, Pozzato, M, Pupilli, F, Rescigno, R, Roganova, T, Rokujo, H, Romano, G, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryasny, V, Ryazhskaya, O, Sato, O, Sato, Y, Schembri, A, Schmidt Parzefall, W, Schroeder, H, Scotto Lavina, L, Sheshukov, A, Shibuya, H, Shoziyoev, G, Simone, S, Sioli, M, Sirignano, C, Sirri, G, S. Song, J, Spinetti, M, Stanco, L, Starkov, N, Stipcevic, M, Strauss, T, Strolin, P, Takahashi, S, Tenti, M, Terranova, F, Tezuka, I, Tioukov, V, Tolun, P, Trabelsi, A, Tran, T, Tufanli, S, Vilain, P, Vladimirov, M, Votano, L, L. Vuilleumier, J, Wilquet, G, Wonsak, B, Yakushev, V, S. Yoon, C, Yoshioka, T, Yoshida, J, Zaitsev, Y, Zemskova, S, Zghiche, A, Zimmermann, R, DE LELLIS, Giovanni, DI CRESCENZO, Antonia, and Strolin, PAOLO EMILIO

Subjects

Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, Monte Carlo method, FOS: Physical sciences, General Physics and Astronomy, 01 natural sciences, High Energy Physics - Experiment, Momentum, Nuclear physics, High Energy Physics - Experiment (hep-ex), Pion, 0103 physical sciences, NEUTRINO, NUCLEAR EMULSION, PARTICLE DETECTORS, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Nuclear emulsion, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Detectors and Experimental Techniques, 010306 general physics, Nuclear Experiment, Physics, Instrumentation et méthodes en physique, Muon, 010308 nuclear & particles physics, Detector, Instrumentation and Detectors (physics.ins-det), nuclear emulsions, Monte Carlo models, Charged particle, 3. Good health, Neutrino

Abstract

A new method of momentum measurement of charged particles through multiple Coulomb scattering (MCS) in the OPERA lead-emulsion target is presented. It is based on precise measurements of track angular deviations carried out thanks to the very high resolution of nuclear emulsions. The algorithm has been tested with Monte Carlo pions. The results are found to describe within the expected uncertainties the data obtained from test beams. We also present a comparison of muon momenta evaluated through MCS in the OPERA lead-emulsion target with those determined by the electronic detectors for neutrino-charged current interaction events. The two independent measurements agree within the experimental uncertainties, and the results validate the algorithm developed for the emulsion detector of OPERA. © IOP Publishing Ltd and Deutsche Physikalische Gesellschaft., 0, arXiv:1106.6211v1 [physics.ins-det], SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2012

438. Search for nu(mu) -> nu(tau) oscillation with the OPERA experiment in the CNGS beam

Author

N. AGAFONOVA, A. ALEKSANDROV, O. ALTINOK, A. ANOKHINA, S. AOKI, A. ARIGA, T. ARIGA, D. AUTIERO, A. BADERTSCHER, A. BAGULYA, A. BEN DHAHBI, A. BERTOLIN, C. BOZZA, T. BRUGIERE, R. BRUGNERA, F. BRUNET, G. BRUNETTI, S. BUONTEMPO, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKIY, V. CHIARELLA, A. CHUKANOV, N. D’AMBROSIO, F. DAL CORSO, Y. DECLAIS, P. DEL AMO SANCHEZ, G. DE LELLIS, M. DE SERIO, F. DI CAPUA, A. DI CRESCENZO, D. DI FERDINANDO, N. DI MARCO, S. DMITRIEVSKI, M. DRACOS, D. DUCHESNEAU, S. DUSINI, T. DZHATDOEV, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L. S. ESPOSITO, J. FAVIER, T. FERBER, R. A. FINI, D. FREKERS, T. FUKUDA, A. GARFAGNINI, C. GOLLNITZ, J. GOLDBERG, D. GOLUBKOV, L. GONCHAROVA, Y. GORNUSHKIN, G. GRELLA, F. GRIANTI, A. M. GULER, C. GUSTAVINO, C. HAGNER, K. HAMADA, T. HARA, M. HIERHOLZER, A. HOLLNAGEL, K. HOSHINO, M. IEVA, H. ISHIDA, K. ISHIGURO, K. JAKOVCIC, C. JOLLET, F. JUGET, M. KAMISCIOGLU, S. H. KIM, M. KIMURA, N. KITAGAWA, B. KLICEK, J. KNUESEL, K. KODAMA, K. KOGISO, M. KOMATSU, U. KOSE, I. KRESLO, C. LAZZARO, J. LENKEIT, I. LIPPI, A. LJUBICIC, A. LONGHIN, P. LOVERRE, G. LUTTER, A. MALGIN, G. MANDRIOLI, K. MANNAI, J. MARTEAU, T. MATSUO, V. MATVEEV, MAURI, NICOLETTA, E. MEDINACELI, F. MEISEL, A. MEREGAGLIA, P. MIGLIOZZI, S. MIKADO, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M. T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKANO, Y. NAKATSUKA, D. NAUMOV, V. NIKITINA, K. NIWA, Y. NONOYAMA, S. OGAWA, N. OKATEVA, A. OLSHEVSKY, T. OMURA, O. PALAMARA, M. PANICCIA, A. PAOLONI, B. D. PARK, I. G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, C. PISTILLO, N. POLUKHINA, K. PRETZL, F. PUPILLI, R. RESCIGNO, T. ROGANOVA, H. ROKUJO, G. ROMANO, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, V. RYASNY, O. RYAZHSKAYA, O. SATO, Y. SATO, A. SCHEMBRI, W. SCHMIDT PARZEFALL, L. SCOTTO LAVINA, A. SHESHUKOV, H. SHIBUYA, G. SHOZIYOEV, S. SIMONE, C. SIRIGNANO, G. SIRRI, J. S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STELLACCI, M. STIPCEVIC, T. STRAUSS, P. STROLIN, K. SUZUKI, S. TAKAHASHI, M. TENTI, F. TERRANOVA, I. TEZUKA, V. TIOUKOV, P. TOLUN, A. TRABELSI, T. TRAN, S. TUFANLI, P. VILAIN, M. VLADIMIROV, L. VOTANO, J. L. VUILLEUMIER, G. WILQUET, B. WONSAK, V. YAKUSHEV, C. S. YOON, J. YOSHIDA, T. YOSHIOKA, Y. ZAITSEV, S. ZEMSKOVA, A. ZGHICHE, R. ZIMMERMANN, GIACOMELLI, GIORGIO MARIA, GIORGINI, MIRIAM, POZZATO, MICHELE, SIOLI, MAXIMILIANO, Agafonova, N, Aleksandrov, A, Altinok, O, Anokhina, A, Aoki, S, Ariga, A, Ariga, T, Autiero, D, Badertscher, A, Bagulya, A, Ben Dhahbi, A, Bertolin, A, Bozza, C, Brugière, T, Brugnera, R, Brunet, F, Brunetti, G, Buontempo, S, Cazes, A, Chaussard, L, Chernyavskiy, M, Chiarella, V, Chukanov, A, D'Ambrosio, N, Dal Corso, F, Déclais, Y, del Amo Sanchez, P, De Lellis, G, De Serio, M, Di Capua, F, Di Crescenzo, A, Di Ferdinando, D, Di Marco, N, Dmitrievski, S, Dracos, M, Duchesneau, D, Dusini, S, Dzhatdoev, T, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, Esposito, L, Favier, J, Ferber, T, Fini, R, Frekers, D, Fukuda, T, Garfagnini, A, Giacomelli, G, Giorgini, M, Göllnitz, C, Goldberg, J, Golubkov, D, Goncharova, L, Gornushkin, Y, Grella, G, Grianti, F, Guler, A, Gustavino, C, Hagner, C, Hamada, K, Hara, T, Hierholzer, M, Hollnagel, A, Hoshino, K, Ieva, M, Ishida, H, Ishiguro, K, Jakovcic, K, Jollet, C, Juget, F, Kamiscioglu, M, Kim, S, Kimura, M, Kitagawa, N, Klicek, B, Knuesel, J, Kodama, K, Kogiso, K, Komatsu, M, Kose, U, Kreslo, I, Lazzaro, C, Lenkeit, J, Lippi, I, Ljubicic, A, Longhin, A, Loverre, P, Lutter, G, Malgin, A, Mandrioli, G, Mannai, K, Marteau, J, Matsuo, T, Matveev, V, Mauri, N, Medinaceli, E, Meisel, F, Meregaglia, A, Migliozzi, P, Mikado, S, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, Muciaccia, M, Naganawa, N, Naka, T, Nakamura, M, Nakano, T, Nakatsuka, Y, Naumov, D, Nikitina, V, Niwa, K, Nonoyama, Y, Ogawa, S, Okateva, N, Olshevsky, A, Omura, T, Palamara, O, Paniccia, M, Paoloni, A, Park, B, Park, I, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pistillo, C, Polukhina, N, Pozzato, M, Pretzl, K, Pupilli, F, Rescigno, R, Roganova, T, Rokujo, H, Romano, G, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryasny, V, Ryazhskaya, O, Sato, O, Sato, Y, Schembri, A, Schmidt Parzefall, W, Scotto Lavina, L, Sheshukov, A, Shibuya, H, Shoziyoev, G, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Song, J, Spinetti, M, Stanco, L, Starkov, N, Stellacci, M, Stipcevic, M, Strauss, T, Strolin, P, Suzuki, K, Takahashi, S, Tenti, M, Terranova, F, Tezuka, I, Tioukov, V, Tolun, P, Trabelsi, A, Tran, T, Tufanli, S, Vilain, P, Vladimirov, M, Votano, L, Vuilleumier, J, Wilquet, G, Wonsak, B, Yakushev, V, Yoon, C, Yoshida, J, Yoshioka, T, Zaitsev, Y, Zemskova, S, Zghiche, A, Zimmermann, R, N. AGAFONOVA, A. ALEKSANDROV, O. ALTINOK, A. ANOKHINA, S. AOKI, A. ARIGA, T. ARIGA, D. AUTIERO, A. BADERTSCHER, A. BAGULYA, A. BEN DHAHBI, A. BERTOLIN, C. BOZZA, T. BRUGIERE, R. BRUGNERA, F. BRUNET, G. BRUNETTI, S. BUONTEMPO, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKIY, V. CHIARELLA, A. CHUKANOV, N. D’AMBROSIO, F. DAL CORSO, Y. DECLAIS, P. DEL AMO SANCHEZ, G. DE LELLIS, M. DE SERIO, F. DI CAPUA, A. DI CRESCENZO, D. DI FERDINANDO, N. DI MARCO, S. DMITRIEVSKI, M. DRACOS, D. DUCHESNEAU, S. DUSINI, T. DZHATDOEV, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L. S. ESPOSITO, J. FAVIER, T. FERBER, R. A FINI, D. FREKERS, T. FUKUDA, A. GARFAGNINI, G. GIACOMELLI, M. GIORGINI, C. GOLLNITZ, J. GOLDBERG, D. GOLUBKOV, L. GONCHAROVA, Y. GORNUSHKIN, G. GRELLA, F. GRIANTI, A. M. GULER, C. GUSTAVINO, C. HAGNER, K. HAMADA, T. HARA, M. HIERHOLZER, A. HOLLNAGEL, K. HOSHINO, M. IEVA, H. ISHIDA, K. ISHIGURO, K. JAKOVCIC, C. JOLLET, F. JUGET, M. KAMISCIOGLU, S. H. KIM, M. KIMURA, N. KITAGAWA, B. KLICEK, J. KNUESEL, K. KODAMA, K. KOGISO, M. KOMATSU, U. KOSE, I. KRESLO, C. LAZZARO, J. LENKEIT, I. LIPPI, A. LJUBICIC, A. LONGHIN, P. LOVERRE, G. LUTTER, A. MALGIN, G. MANDRIOLI, K. MANNAI, J. MARTEAU, T. MATSUO, V. MATVEEV, N. MAURI, E. MEDINACELI, F. MEISEL, A. MEREGAGLIA, P. MIGLIOZZI, S. MIKADO, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M. T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKANO, Y. NAKATSUKA, D. NAUMOV, V. NIKITINA, K. NIWA, Y. NONOYAMA, S. OGAWA, N. OKATEVA, A. OLSHEVSKY, T. OMURA, O. PALAMARA, M. PANICCIA, A. PAOLONI, B. D. PARK, I. G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, C. PISTILLO, N. POLUKHINA, M. POZZATO, K. PRETZL, F. PUPILLI, R. RESCIGNO, T. ROGANOVA, H. ROKUJO, G. ROMANO, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, V. RYASNY, O. RYAZHSKAYA, O. SATO, Y. SATO, A. SCHEMBRI, W. SCHMIDT-PARZEFALL, L. SCOTTO LAVINA, A. SHESHUKOV, H. SHIBUYA, G. SHOZIYOEV, S. SIMONE, M. SIOLI, C. SIRIGNANO, G. SIRRI, J. S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STELLACCI, M. STIPCEVIC, T. STRAUSS, P. STROLIN, K. SUZUKI, S. TAKAHASHI, M. TENTI, F. TERRANOVA, I. TEZUKA, V. TIOUKOV, P. TOLUN, A. TRABELSI, T. TRAN, S. TUFANLI, P. VILAIN, M. VLADIMIROV, L. VOTANO, J. L. VUILLEUMIER, G. WILQUET, B. WONSAK, V. YAKUSHEV, C. S. YOON, J. YOSHIDA, T. YOSHIOKA, Y. ZAITSEV, S. ZEMSKOVA, A. ZGHICHE, and R. ZIMMERMANN

Subjects

FIS/01 - FISICA SPERIMENTALE, neutrino physics, NEUTRINO, FLAVOR OSCILLATIONS, NUCLEAR EMULSIONS, TAU LEPTON

Abstract

The OPERA neutrino experiment in the underground Gran Sasso Laboratory (LNGS) was designed to perform the first detection of neutrino oscillations in direct appearance mode in the vμ→ v τ channel, the v τ signature being the identification of the τ -lepton created in its charged current interaction. The hybrid apparatus consists of a large mass emulsion film/lead target complemented by electronic detectors. Placed in the LNGS, it is exposed to the high-energy long-baseline CERN Neutrino beam to Gran Sasso (CNGS) 730 km away from the neutrino source. The observation of a first v τ candidate event was reported in 2010. In this paper, we discuss the result of the analysis of the data taken during the first two years of operation (2008-2009) underlining the major improvements brought to the analysis chain and to the Monte Carlo simulations. The statistical significance of the one event observed so far is then evaluated to 95%. © IOP Publishing Ltd and Deutsche Physikalische Gesellschaft.

Published

2012

439. Study of neutrino interactions with the electronic detectors of the OPERA experiment

Author

A. S. Malgin, G. De Lellis, M. Paniccia, V. Nikitina, Kunihiro Morishima, D. Di Ferdinando, Maximiliano Sioli, Kimio Niwa, S. Mikado, T. Brugière, R. A. Fini, C. Pistillo, V. G. Ryasny, C. Göllnitz, Cristiano Bozza, N. M. Okateva, C. Gustavino, L. Stanco, A. Longhin, J. Marteau, K. Hamada, A. M. Guler, Caren Hagner, Alexander Bagulya, W. Schmidt-Parzefall, M. Pozzato, F. Brunet, M. Kimura, R. Rescigno, A. Schembri, F. Grianti, Antonio Ereditato, E. Medinaceli, T. Matsuo, H. Pessard, Ante Ljubičić, F. Terranova, S. Zemskova, Alessandro Paoloni, Naotaka Naganawa, André Rubbia, P. Strolin, S. Simone, L. Votano, J. Goldberg, Osamu Sato, Marcos Dracos, O. Egorov, Nobuko Kitagawa, Björn Wonsak, D. Autiero, Satoru Takahashi, S. Tufanli, F. Dal Corso, T. Strauss, T. Yoshioka, Chiara Sirignano, J. Favier, K. Pretzl, S. Dmitrievski, Hiroki Rokujo, Torben Ferber, A. Sheshukov, B. D. Park, Yoshihiro Sato, M. Spinetti, Viktor Matveev, M. Chernyavskiy, Yu. Zaitsev, Gianfranca De Rosa, Akitaka Ariga, L. Chaussard, M. T. Muciaccia, Y. A. Gornushkin, N. Agafonova, A. M. Anokhina, R. Brugnera, M. Ieva, G. Grella, T. Fukuda, F. Juget, Luigi Salvatore Esposito, J. Lenkeit, Nicola D'Ambrosio, Shigeki Aoki, Masahiro Komatsu, M. Giorgini, P. Migliozzi, Ivano Lippi, Tatsuhiro Naka, G. Brunetti, J. L. Vuilleumier, H. Kubota, Anselmo Meregaglia, M. Hierholzer, Dmitry Golubkov, A Olchevskiy, I. Tezuka, H. Schroeder, A. Bertolin, Pierre Vilain, V. F. Yakushev, H. Ishida, A. Cazes, G Shoziyeov, J. Knuesel, S H Kim, K Kazuyama, Amina Zghiche, C. S. Yoon, B. Klicek, U. Kose, H. Shibuya, S. Ogawa, S. Buontempo, J. Ebert, F. Di Capua, G. Sirri, I. Rostovtseva, Artem Chukanov, R. I. Enikeev, Timur Dzhatdoev, T. Tran, J. S. Song, M. Kamiscioglu, Krešimir Jakovčić, R. Zimmermann, Koichi Kodama, N. I. Starkov, Gaston Wilquet, P. Tolun, A. Hollnagel, E. Pennacchio, O Altinok, O. G. Ryazhskaya, I. G. Park, A. Garfagnini, L. A. Goncharova, F. Meisel, A Bendhahbi, L. Scotto Lavina, Dmitry V. Naumov, D. Duchesneau, C Lazzaro, Cécile Jollet, G. Giacomelli, M. S. Vladimirov, Alessandro Pastore, G. Romano, F. Pupilli, Mario Stipčević, P. F. Loverre, I. Kreslo, M. Tenti, Tomoko Ariga, M. De Serio, S. Miyamoto, M. Nakamura, N. G. Polukhina, A. Trabelsi, K Mannai, N. Di Marco, V. Tioukov, A. Di Crescenzo, J. Yoshida, T. M. Roganova, A. Badertscher, N. Mauri, U. Moser, Y. Déclais, A. Russo, Guillaume Lutter, P. Del Amo Sanchez, T. Hara, V. Chiarella, P. Monacelli, A. B. Aleksandrov, D. Frekers, V. Pilipenko, Y. Nonoyama, L. Patrizii, G. Mandrioli, S. Dusini, K. Hoshino, Toshiyuki Nakano, Agafonova, N, Aleksandrov, A, Altinok, O, Anokhina, A, Aoki, S, Ariga, A, Ariga, T, Autiero, D, Badertscher, A, Bagulya, A, Bendhahbi, A, Bertolin, A, Bozza, C, Brugière, T, Brugnera, R, Brunet, F, Brunetti, G, Buontempo, S, Cazes, A, Chaussard, L, Chernyavskiy, M, Chiarella, V, Chukanov, A, D'Ambrosio, N, Dal Corso, F, De Lellis, G, Del Amo Sanchez, P, Déclais, Y, De Serio, M, Di Capua, F, Di Crescenzo, A, Di Ferdinando, D, Di Marco, N, Dmitrievski, S, Dracos, M, Duchesneau, D, Dusini, S, Dzhatdoev, T, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, Esposito, L, Favier, J, Ferber, T, Fini, R, Frekers, D, Fukuda, T, Garfagnini, A, Giacomelli, G, Giorgini, M, Göllnitz, C, Goldberg, J, Golubkov, D, Goncharova, L, Gornushkin, Y, Grella, G, Grianti, F, Guler, A, Gustavino, C, Hagner, C, Hamada, K, Hara, T, Hierholzer, M, Hollnagel, A, Hoshino, K, Ieva, M, Ishida, H, Jakovcic, K, Jollet, C, Juget, F, Kamiscioglu, M, Kazuyama, K, Kim, S, Kimura, M, Kitagawa, N, Klicek, B, Knuesel, J, Kodama, K, Komatsu, M, Kose, U, Kreslo, I, Kubota, H, Lazzaro, C, Lenkeit, J, Lippi, I, Ljubicic, A, Longhin, A, Loverre, P, Lutter, G, Malgin, A, Mandrioli, G, Mannai, K, Marteau, J, Matsuo, T, Matveev, V, Mauri, N, Medinaceli, E, Meisel, F, Meregaglia, A, Migliozzi, P, Mikado, S, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, Muciaccia, M, Naganawa, N, Naka, T, Nakamura, M, Nakano, T, Naumov, D, Nikitina, V, Niwa, K, Nonoyama, Y, Ogawa, S, Okateva, N, Olchevskiy, A, Paniccia, M, Paoloni, A, Park, B, Park, I, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pretzl, K, Pilipenko, V, Pistillo, C, Polukhina, N, Pozzato, M, Pupilli, F, Rescigno, R, Roganova, T, Rokujo, H, Romano, G, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryasny, V, Ryazhskaya, O, Sato, O, Sato, Y, Schembri, A, Schmidt Parzefall, W, Schroeder, H, Scotto Lavina, L, Sheshukov, A, Shibuya, H, Shoziyeov, G, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Song, J, Spinetti, M, Stanco, L, Starkov, N, Stipcevic, M, Strauss, T, Strolin, P, Takahashi, S, Tenti, M, Terranova, F, Tezuka, I, Tioukov, V, Tolun, P, Trabelsi, A, Tran, T, Tufanli, S, Vilain, P, Vladimirov, M, Votano, L, Vuilleumier, J, Wilquet, G, Wonsak, B, Yakushev, V, Yoon, C, Yoshioka, T, Yoshida, J, Zaitsev, Y, Zemskova, S, Zghiche, A, Zimmermann, R, Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), OPERA, DE LELLIS, Giovanni, DI CRESCENZO, Antonia, Strolin, PAOLO EMILIO, N. AGAFONOVA, A. ALEKSANDROV, O. ALTINOK, A. ANOKHINA, S. AOKI, A. ARIGA, T. ARIGA, D. AUTIERO, A. BADERTSCHER, A. BAGULYA, A. BENDHAHBI, A. BERTOLIN, C. BOZZA, T. BRUGIÈRE, R. BRUGNERA, F. BRUNET, G. BRUNETTI, S. BUONTEMPO, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKIY, V. CHIARELLA, A. CHUKANOV, N. D’AMBROSIO, F. DAL CORSO, G. DE LELLIS, P. DEL AMO SANCHEZ, Y. DÉCLAIS, M. DE SERIO, F. DI CAPUA, A. DI CRESCENZO, D. DI FERDINANDO, N. DI MARCO, S. DMITRIEVSKI, M. DRACOS, D. DUCHESNEAU, S. DUSINI, T. DZHATDOEV, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L. S. ESPOSITO, J. FAVIER, T. FERBER, R. A. FINI, D. FREKERS, T. FUKUDA, A. GARFAGNINI, G. GIACOMELLI, M. GIORGINI, C. GÖLLNITZ, J. GOLDBERG, D. GOLUBKOV, L. GONCHAROVA, Y. GORNUSHKIN, G. GRELLA, F. GRIANTI, A. M. GULER, C. GUSTAVINO, C. HAGNER, K. HAMADA, T. HARA, M. HIERHOLZER, A. HOLLNAGEL, K. HOSHINO, M. IEVA, H. ISHIDA, K. JAKOVCIC, C. JOLLET, F. JUGET, M. KAMISCIOGLU, K. KAZUYAMA, S. H. KIM, M. KIMURA, N. KITAGAWA, B. KLICEK, J. KNUESEL, K. KODAMA, M. KOMATSU, U. KOSE, I. KRESLO, H. KUBOTA, C. LAZZARO, J. LENKEIT, I. LIPPI, A. LJUBICIC, A. LONGHIN, P. LOVERRE, G. LUTTER, A. MALGIN, G. MANDRIOLI, K. MANNAI, J. MARTEAU, T. MATSUO, V. MATVEEV, N. MAURI, E. MEDINACELI, F. MEISEL, A. MEREGAGLIA, P. MIGLIOZZI, S. MIKADO, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M. T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKANO, D. NAUMOV, V. NIKITINA, K. NIWA, Y. NONOYAMA, S. OGAWA, N. OKATEVA, A. OLCHEVSKIY, M. PANICCIA, A. PAOLONI, B. D. PARK, I. G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, K. PRETZL, V. PILIPENKO, C. PISTILLO, N. POLUKHINA, M. POZZATO, F. PUPILLI, R. RESCIGNO, T. ROGANOVA, H. ROKUJO, G. ROMANO, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, V. RYASNY, O. RYAZHSKAYA, O. SATO, Y. SATO, A. SCHEMBRI, W. SCHMIDT-PARZEFALL, H. SCHROEDER, L. SCOTTO LAVINA, A. SHESHUKOV, H. SHIBUYA, G. SHOZIYEOV, S. SIMONE, M. SIOLI, C. SIRIGNANO, G. SIRRI, J. S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STIPCEVIC, T. STRAUSS, P. STROLIN, S. TAKAHASHI, M. TENTI, F. TERRANOVA, I. TEZUKA, V. TIOUKOV, P. TOLUN, A. TRABELSI, T. TRAN, S. TUFANLI, P. VILAIN, M. VLADIMIROV, L. VOTANO, J. L. VUILLEUMIER, G. WILQUET, B. WONSAK, V. YAKUSHEV, C. S. YOON, T. YOSHIOKA, J. YOSHIDA, Y. ZAITSEV, S. ZEMSKOVA, A. ZGHICHE, R. ZIMMERMANN, del Amo Sanchez, P, DI CAPUA, Francesco, Esposito, L. S, Fini, R. A, Guler, A. M, Kim, S. H, Muciaccia, M. T, Park, B. D, Park, I. G, Song, J. S, Vuilleumier, J. L, Yoon, C. S, and Zimmermann, R.

Subjects

Physics::Instrumentation and Detectors, Resistive plate, Photographic emulsions Engineering main heading: Experiments, Monte Carlo method, Muon track, General Physics and Astronomy, INTERACTIONS, 7. Clean energy, 01 natural sciences, High Energy Physics - Experiment, Neutral current, Neutrino interaction, High Energy Physics - Experiment (hep-ex), neutrino, CNGS, Neutrino beam, ELECTRONIC DETECORS, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Nuclear Experiment, Charged current, Physics, Large Hadron Collider, Luminosity (scattering theory), electronic detector, neutrino interactions, OPERA, Energy range, Gas chamber, Monte Carlo Simulation, Computer simulation, Physique des particules élémentaires, Neutrino, Particle Physics - Experiment, Particle physics, Astrophysics::High Energy Astrophysical Phenomena, FOS: Physical sciences, Scintillator, Nuclear emulsion, Nuclear physics, Physics and Astronomy (all), cngs, opera, Scintillator strips Engineering controlled terms: Charged particle, Muon spectrometer, 0103 physical sciences, 010306 general physics, Momentum distribution, Muon, 010308 nuclear & particles physics, Emergency room, Hybrid technology, Calorimetric measurement, Physics::Accelerator Physics, High Energy Physics::Experiment, hybrid detectors, particle tracking detectors, electronic detectors, scintillators, magnetic spectrometers, Drift tube

Abstract

The OPERA experiment is based on a hybrid technology combining electronic detectors (EDs) and nuclear emulsions. OPERA collected muon-neutrino interactions during the 2008 and 2009 physics runs of the CNGS neutrino beam, produced at CERN with an energy range of about 5-35 GeV. A total of 5.3 × 1019 protons on target equivalent luminosity have been analysed with the OPERA EDs: scintillator strips target trackers and magnetic muon spectrometers equipped with resistive plate gas chambers and drift tubes, allowing a detailed reconstruction of muon-neutrino interactions. Charged current (CC) and neutral current (NC) interactions are identified, using the measurements in the EDs, and the NC/CC ratio is computed. The momentum distribution and the charge of the muon tracks produced in CC interactions are analysed. Calorimetric measurements of the visible energy are performed for both the CC and NC samples. For CC events, the Bjorken-y distribution and the hadronic shower profile are computed. The results are compared with a detailed Monte Carlo simulation of the response of EDs. © IOP Publishing Ltd and Deutsche Physikalische Gesellschaft., 0, SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2011

440. The detection of neutrino interactions in the emulsion/lead target of the OPERA experiment

Author

Pozzato, M., N, Pretzl, o. K., Publichenko, d. P., Pupilli, b. F., Rescigno, u. R., Rizhikov, l. D., Roganova, aa T., Romano, b. G., Rosa, l. G., Rostovtseva, a. j. I., Rubbia, w. A., Russo, f. A., P, Ryasny, s. V., Ryazhskaya, a. O., Sadovski, a. A., Sato, v. O., Sato, y. Y., Saveliev, ak V., Schembri, aa A., Schmidt Parzefall, a. j. W., Schroeder, k. H., Sch¨utz, ad H. U., Schuler, d. J., Scotto Lavina, q. L., Shibuya, p. H., Simone, z. S., T, Sioli, ai M., Sirignano, Chiara, Sirri, l. G., Song, o. J. S., Spinetti, a. f. M., Stanco, h. L., Starkov, m. N., Stipcevic, g. M., Strauss, ae T., Strolin, f. P., Sugonyaev, s. V., Takahashi, m. S., Tereschenko, y. V., Terranova, v. F., Tezuka, h. I., Tioukov, ak V., Tolun, p. P., Tsarev, ac V., Tsenov, g. R., Tufanli, ah S., Ushida, ac N., Verguilov, ag V., Vilain, ah P., Vladimirov, al M., Votano, g. L., Vuilleumier, h. J. L., Wilquet, d. G., Wonsak, al B., Yakushev, k. V., Yoon, a. C. S., Yoshioka, a. f. T., Yoshida, y. J., Zaitsev, y. Y., Zghichej, w. A., Zimmermannk, R., Agafonova, N., Anokhina, a. A., Aoki, b. S., Ariga, c. A., Ariga, d. T., Arrabito, d. L., Autiero, e. D., Badertscher, e. A., Bagulya, f. A., Bersani Greggio, g. F., Bertolin, h. A., Besnier, i. M., J, Bick, 1 D., Boyarkin, k. V., Bozza, a. C., Brugi `ere, l. T., Brugnera, Riccardo, I, Brunetti, m. G., Buontempo, o. S., Carrara, p. E., I, M, Cazes, 2 A., Chaussard, e. L., Chernyavsky, e. M., Chiarella, g. V., Chon Sen, h. N., Chukanov, q. A., Cozzi, p. M., D’Amato, n. G., Dal Corso, l. F., D’Ambrosio, i. N., De Lellis, r. G., P, S, D´eclais, 3 Y., De Serio, e. M., Di Capua, t. F., Di Ferdinando, p. D., Di Giovanni, o. A., Di Marco, u. N., Di Troia, u. C., Dmitrievski, h. S., Dominjon, v. A., Dracos, e. M., Duchesneau, q. D., Dusini, j. S., Ebert, i. J., Egorov, k. O., Enikeev, w. R., Ereditato, a. A., Esposito, d. L. S., Favier, r. J., Felici, j. G., Ferber, h. T., Fini, k. R., Frekers, t. D., Fukuda, x. T., Fukushima, y. C., Galkin, z. V. I., Galkin, b. V. A., Garfagnini, Alberto, Giacomelli, m. G., Giorgini, o. M., Goellnitz, o. C., Goeltzenlichter, k. T., Goldberg, q. J., Golubkov, ab D., Gornushkin, w. Y., Grella, v. G., Grianti, l. F., Guler, h. M., Gustavino, ac C., Hagner, r. C., Hamada, k. K., Hara, y. T., Hierholzer, c. M., Hoshino, ad K., Ieva, y. M., Jakovcic, t. K., Janutta, ae B., Jollet, k. C., Juget, q. F., Kazuyama, d. M., Kim, y. S. H., a. f., Kimura, 4 M., Kitagawa, z. N., Klicek, y. B., Knuesel, ae J., Kodama, d. K., Kolev, ag D., Komatsu, ah M., Kose, y. U., Krasnoperov, 5 A., Kreslo, v. I., Krumstein, d. Z., Kubota, v. H., Kutsenov, y. V. V., Kuznetsov, a. V. A., Laktineh, a. I., Lazzaro, e. C., Lenkeit, f. J., Ljubicic, k. A., Longhin, ae A., Lutter, m. G., Malgin, d. A., Manai, a. K., Mandrioli, e. G., Marotta, o. A., Marteau, p. J., Matsuo, e. T., Matveev, z. V., Mauri, a. N., Medinaceli, o. E., Meisel, o. F., Meregaglia, d. A., Messina, q. M., Migliozzi, d. P., Miyamoto, 6 S., Monacelli, y. P., Morishima, u. K., Moser, y. U., Muciaccia, d. M. T., Naganawa, ai N., Naka, y. T., Nakamura, y. M., Nakano, y. T., Nikitina, y. V., Niwa, b. K., Nonoyama, y. Y., Nozdrin, y. A., Ogawa, v. S., Olchevski, z. A., Orlova, v. G., Osedlo, g. V., Ossetski, b. D., Paniccia, aa M., Paoloni, h. A., Park, h. B. D., Park, a. f. I. G., Pastore, a. f. A., Patrizii, ai L., Pennacchio, o. E., Pessard, e. H., Pilipenko, j. V., Pistillo, x. C., Polukhina, d. N., Agafonova, N, Anokhina, A, Aoki, S, Ariga, A, Ariga, T, Arrabito, L, Autiero, D, Badertscher, A, Bagulya, A, Bersani Greggio, F, Bertolin, A, Besnier, M, Bick, D, Boyarkin, V, Bozza, C, Brugière, T, Brugnera, R, Brunetti, G, Buontempo, S, Carrara, E, Cazes, A, Chaussard, L, Chernyavsky, M, Chiarella, V, Chon-Sen, N, Chukanov, A, Cozzi, M, D'Amato, G, Dal Corso, F, D'Ambrosio, N, De Lellis, G, Déclais, Y, De Serio, M, Di Capua, F, Di Ferdinando, D, Di Giovanni, A, Di Marco, N, Di Troia, C, Dmitrievski, S, Dominjon, A, Dracos, M, Duchesneau, D, Dusini, S, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, Esposito, L, Favier, J, Felici, G, Ferber, T, Fini, R, Frekers, D, Fukuda, T, Fukushima, C, Galkin, V, Garfagnini, A, Giacomelli, G, Giorgini, M, Goellnitz, C, Goeltzenlichter, T, Goldberg, J, Golubkov, D, Gornushkin, Y, Grella, G, Grianti, F, Guler, M, Gustavino, C, Hagner, C, Hamada, K, Hara, T, Hierholzer, M, Hoshino, K, Ieva, M, Jakovcic, K, Janutta, B, Jollet, C, Juget, F, Kazuyama, M, Kim, S, Kimura, M, Kitagawa, N, Klicek, B, Knuesel, J, Kodama, K, Kolev, D, Komatsu, M, Kose, U, Krasnoperov, A, Kreslo, I, Krumstein, Z, Kubota, H, Kutsenov, V, Kuznetsov, V, Laktineh, I, Lazzaro, C, Lenkeit, J, Ljubicic, A, Longhin, A, Lutter, G, Malgin, A, Manai, K, Mandrioli, G, Marotta, A, Marteau, J, Matsuo, T, Matveev, V, Mauri, N, Medinaceli, E, Meisel, F, Meregaglia, A, Messina, M, Migliozzi, P, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, Muciaccia, M, Naganawa, N, Naka, T, Nakamura, M, Nakano, T, Nikitina, V, Niwa, K, Nonoyama, Y, Nozdrin, A, Ogawa, S, Olchevski, A, Orlova, G, Osedlo, V, Ossetski, D, Paniccia, M, Paoloni, A, Park, B, Park, I, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pilipenko, V, Pistillo, C, Polukhina, N, Pozzato, M, Pretzl, K, Publichenko, P, Pupilli, F, Rescigno, R, Rizhikov, D, Roganova, T, Romano, G, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryasny, V, Ryazhskaya, O, Sadovski, A, Sato, O, Sato, Y, Saveliev, V, Schembri, A, Schmidt Parzefall, W, Schroeder, H, Schütz, H, Schuler, J, Scotto Lavina, L, Shibuya, H, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Song, J, Spinetti, M, Stanco, L, Starkov, N, Stipcevic, M, Strauss, T, Strolin, P, Sugonyaev, V, Takahashi, S, Tereschenko, V, Terranova, F, Tezuka, I, Tioukov, V, Tolun, P, Tsarev, V, Tsenov, R, Tufanli, S, Ushida, N, Verguilov, V, Vilain, P, Vladimirov, M, Votano, L, Vuilleumier, J, Wilquet, G, Wonsak, B, Yakushev, V, Yoon, C, Yoshioka, T, Yoshida, J, Zaitsev, Y, Zghiche, A, Zimmermann, R, Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Département Recherches Subatomiques (DRS-IPHC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Louis Pasteur - Strasbourg I-Centre National de la Recherche Scientifique (CNRS), OPERA, N. AGAFONOVA, A. ANOKHINA, S. AOKI, A. ARIGA, T. ARIGA, L. ARRABITO, D. AUTIERO, A. BADERTSCHER, A. BAGULYA, F. BERSANI GREGGIO, A. BERTOLIN, M. BESNIER, D. BICK, V. BOYARKIN, C. BOZZA, T. BRUGIÈRE, R. BRUGNERA, G. BRUNETTI, S. BUONTEMPO, E. CARRARA, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKY, V. CHIARELLA, N. CHON-SEN, A. CHUKANOV, M. COZZI, G. D’AMATO, F. DAL CORSO, N. D’AMBROSIO, G. DE LELLIS, Y. DÉCLAIS, M. DE SERIO, F. DI CAPUA, D. DI FERDINANDO, A. DI GIOVANNI, N. DI MARCO, C. DI TROIA, S. DMITRIEVSKI, A. DOMINJON, M. DRACOS, D. DUCHESNEAU, S. DUSINI, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L.S. ESPOSITO, J. FAVIER, G. FELICI, T. FERBER, R. FINI, D. FREKERS, T. FUKUDA, C. FUKUSHIMA, V.I. GALKIN, V.A. GALKIN, A. GARFAGNINI, G. GIACOMELLI, M. GIORGINI, C. GOELLNITZ, T. GOELTZENLICHTER, J. GOLDBERG, D. GOLUBKOV, Y. GORNUSHKIN, G. GRELLA, F. GRIANTI, M. GULER, C. GUSTAVINO, C. HAGNER, K. HAMADA, T. HARA, M. HIERHOLZER, K. HOSHINO, M. IEVA, K. JAKOVCIC, B. JANUTTA, C. JOLLET, F. JUGET, M. KAZUYAMA, S.H. KIM, M. KIMURA, N. KITAGAWA, B. KLICEK, J. KNUESEL, K. KODAMA, D. KOLEV, M. KOMATSU, U. KOSE, A. KRASNOPEROV, I. KRESLO, Z. KRUMSTEIN, H. KUBOTA, V.V. KUTSENOV, V.A. KUZNETSOV, I. LAKTINEH, C. LAZZARO, F J. LENKEIT, A. LJUBICIC, A. LONGHIN, G. LUTTER, A. MALGIN, K. MANAI, G. MANDRIOLI, A. MAROTTA, J. MARTEAU, T. MATSUO, V. MATVEEV, N. MAURI, E. MEDINACELI, F. MEISEL, A. MEREGAGLIA, M. MESSINA, P. MIGLIOZZI, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M.T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKANO, V. NIKITINA, K. NIWA, Y. NONOYAMA, A. NOZDRIN, S. OGAWA, A. OLCHEVSKI, G. ORLOVA, V. OSEDLO, D. OSSETSKI, M. PANICCIA, A. PAOLONI, B.D. PARK, I.G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, V. PILIPENKO, C. PISTILLO, N. POLUKHINA, M. POZZATO, K. PRETZL, P. PUBLICHENKO, F. PUPILLI, R. RESCIGNO, D. RIZHIKOV, T. ROGANOVA, G. ROMANO, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, V. RYASNY, O. RYAZHSKAYA, A. SADOVSKI, O. SATO, Y. SATO, V. SAVELIEV, A. SCHEMBRI, W. SCHMIDT PARZEFALL, H. SCHROEDER, H.U. SCHUTZ, J. SCHULER, L. SCOTTO LAVINA, H. SHIBUYA, S. SIMONE, M. SIOLI, C. SIRIGNANO, G. SIRRI, J.S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STIPCEVIC, T. STRAUSS, P. STROLIN, V. SUGONYAEV, S. TAKAHASHI, V. TERESCHENKO, F. TERRANOVA, I. TEZUKA, V. TIOUKOV, P. TOLUN, V. TSAREV, R. TSENOV, S. TUFANLI, N. USHIDA, V. VERGUILOV, P. VILAIN, M. VLADIMIROV, L. VOTANO, J.L. VUILLEUMIER, G. WILQUET, B. WONSAK, V. YAKUSHEV, C.S. YOON, T. YOSHIOKA, J. YOSHIDA, Y. ZAITSEV, A. ZGHICHEJ, R. ZIMMERMANNK, Greggio, F. Bersani, Chon Sen, N, Corso, F. Dal, Lellis, G. De, Serio, M. De, DI CAPUA, Francesco, Ferdinando, D. Di, Giovanni, A. Di, Marco, N. Di, Troia, C. Di, Esposito, L. S, Galkin, V. I, Galkin, V. A, Kim, S. H, Kutsenov, V. V, Kuznetsov, V. A, Mori\ shima, K, Muciaccia, M. T, Park, B. D, Park, I. G, Parzefall, W. Schmidt, Schütz, H. U, Lavina, L. Scotto, Song, J. S, Vuilleumier, J. L, Yoon, C. S, Zimmermann, R., Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), and Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

High energy, Particle physics, NEUTRINO OSCILLATIONS, FUNDAMENTAL PHYSICS, Physics::Instrumentation and Detectors, FOS: Physical sciences, 01 natural sciences, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Particle tracking detectors, 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], 010306 general physics, Neutrino oscillation, Nuclear Experiment, Instrumentation, Mathematical Physics, Physics, Large Hadron Collider, Large detector systems for particle and astroparticle physics, 010308 nuclear & particles physics, Detector, High Energy Physics::Phenomenology, Astrophysics::Instrumentation and Methods for Astrophysics, NEUTRINO DETECTORS, 3. Good health, Particle tracking detector, Neutrino detector, Large detector systems for particle and astroparticle physic, Physique des particules élémentaires, PARTICLE PHYSICS, High Energy Physics::Experiment, Neutrino, Beam (structure), Particle Physics - Experiment, neutrino interactions, OPERA experiment, particle tracking detectors, large detector systems for particle and astroparticle, hysics

Abstract

The OPERA neutrino detector in the underground Gran Sasso Laboratory (LNGS) was designed to perform the first detection of neutrino oscillations in appearance mode through the study of νμ→ ντ oscillations. The apparatus consists of an emulsion/lead target complemented by electronic detectors and it is placed in the high energy long-baseline CERN to LNGS beam (CNGS) 730 km away from the neutrino source. Runs with CNGS neutrinos were successfully carried out in 2007 and 2008 with the detector fully operational with its related facilities for the emulsion handling and analysis. After a brief description of the beam and of the experimental setup we report on the collection, reconstruction and analysis procedures of first samples of neutrino interaction events. © 2009 IOP Publishing Ltd and SISSA., 0, P06020, SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2009

441. Perkutaner Pulmonalklappenersatz und Tissue Engineering: die Herstellung und Charakterisierung selbstexpandierender klappentragender Stents auf der Basis eines dezellularisierten Klappengerüstes

Author

Bethge, Johannes, Lutter, G., and Bewig, B.

Subjects

doctoral thesis, Perkutaner Pulmonalklappenersatz, Abschlussarbeit, Tissue Engineering, Medizinische Fakultät, Perkutaner Pulmonalklappenersatz, Tissue Engineering, ddc:610, ddc:6XX, Faculty of Medicine

Abstract

In einer Zusammenführung des perkutanen Pulmonalklappenersatzes und des Tissue Engineering könnten sich die jeweiligen Vorteile der beiden Verfahren vereinen. Ziel dieser Arbeit ist es einen Tissue engineerten, klappentragenden Stent auf der Basis eines dezellulariserten Klappengerüstes zu entwickeln, der sich für den perkutanen Einsatz am ovinen Großtiermodell eignet. Zusätzlich wird die Entwicklung, Funktionsfähigkeit und Qualität der gefertigten Stents evaluiert. Als Grundlage für die Herstellung wurden porcine Pulmonalklappen und oviner Dünndarm präpariert und in einem selbstexpandierenden Nitinol-Stent mit 26 mm Durchmesser fixiert. Diese Konstruktion wurde anschließend mit einer Enzymlösung dezellularisiert, um ein azelluläres Klappengerüst für eine in vivo-Rebesiedlung oder eine in vitro-Besiedlung mit autologen Zellen zu schaffen. Insgesamt wurden 40 klappentragende Stents hergestellt. Zehn klappentragende Stents wurden als Prototypen für einen Test am Applikationskatheter und weitere sechs für erste für Dezellularisierungs- und Besiedlungsversuche gefertigt. Für in vitro-Untersuchungen und den Einsatz am ovinen Großtiermodell wurden 24 klappentragende Stents hergestellt. Mit folgenden Methoden wurden diese 24 Stents auf ihre Eignung untersucht und bewertet: Makroskopische Beurteilung, Suffizienztest mittels NaCl-Lösung und Messung der Expansionsfähigkeit. Drei Stents wurden mikrobiologisch untersucht. Exemplarisch wurde ein Stent einem Funktionstest im Kreislaufmodell unterzogen. Insgesamt wurde 12 Versuchstieren ein klappentragender Stent implantiert. Die Anwendbarkeit und mögliche Akutfolgen der Stent-Applikation in vivo wurde durch eine Untersuchung der verstorbenen Versuchtiere betrachtet. Für erste Präparationsversuche wurden 50 porcine Pulmonalklappen verbraucht. Nach einer erfolgreichen Umsetzung der Präparation und Fixierung von Klappe und Dünndarm konnten 10 klappentragende Stents als Prototypen in einen 22 French Applikationskatheter geladen werden. Die Handhabung des Dezellularisierungsverfahrens mit Trypsin/EDTA stellte sich unproblematisch dar. Die gewählte Dezellularisierungsdauer von 24 h zeigte dabei gute Ergebnisse. Auch die Zellkultivierung konnte erfolgreich umgesetzt werden. Nach 19-20 Tagen wurden genügend vitale Endothelzellen und nach durchschnittlich 22 Tagen genügend vitale glatte Muskelzellen kultiviert. Die Einrichtung eines statischen und dynamischen Besiedlungsvorganges konnte realisiert werden. Ein dezellularisierter klappentragender Stent konnte in 5, ein in vitro besiedelter in 47 Tagen hergestellt werden. Die in vitro-Evaluation der 24 Klappenstents zeigte folgende Ergebnisse: Im Suffizienztest konnten die Stents im Mittel eine Flüssigkeitssäule für 117,5 s halten. Die Messung bei 37°C ergab einen mittleren Durchmesser von 25,2 mm. Bei der makroskopischen Beurteilung wiesen sechs Stents kleine Beschädigungen auf. Keiner der untersuchten Stents zeigte eine Kontamination mit Bakterien oder Pilzen. Der im Kreislaufmodell getestete klappentragende Stent öffnete und schloss sich regelrecht. Die Druckwerte entsprachen der Norm. Die Untersuchung der verstorbenen Versuchstiere ergab, dass 67% der Gesamtsterblichkeit mit einer akuten, durch den Stent verursachten Perforation assoziiert waren. Im Rahmen der vorliegenden Arbeit konnte ein Herstellungsprozess selbstexpandierender, porcine Pulmonalklappen tragender Nitinol-Stents mit Methoden des Tissue Engineering etabliert werden. Das Vorgehen und die verwendeten Materialien bewährten sich. Die klappentragenden Stents erwiesen sich nach unseren Einschätzungen als funktionstüchtig und suffizient und damit einsetzbar. Die Größe und Beschaffenheit der Nitinol-Stents sollte modifiziert werden, um Perforationsrisiken während der Applikation weiter zu verringern.

Published

2009

442. Study of the effects induced by lead on the emulsion films of the OPERA experiment

Author

A Anokhina, S Aoki, A Ariga, L Arrabito, D Autiero, A Badertscher, F Bay, A Bergnoli, F Bersani Greggio, M Besnier, D Bick, C Bozza, T Brugiere, R Brugnera, G Brunetti, S Buontempo, E Carrara, A Cazes, L Chaussard, M Chernyavsky, V Chiarella, N Chon-Sen, A Chukanov, L Consiglio, M Cozzi, F Dal Corso, G D'Amato, N D'Ambrosio, G De Lellis, Y Déclais, M De Serio, F Di Capua, D Di Ferdinando, A Di Giovanni, N Di Marco, C Di Troia, S Dmitrievski, A Dominjon, M Dracos, D Duchesneau, B Dulach, S Dusini, J Ebert, O Egorov, R Enikeev, A Ereditato, L S Esposito, J Favier, G Felici, T Ferber, R Fini, A Franceschi, T Fukuda, C Fukushima, V I Galkin, V A Galkin, A Garfagnini, G Giacomelli, M Giorgini, C Goellnitz, D Golubkov, Y Gornoushkin, G Grella, F Grianti, M Guler, G Gusev, C Gustavino, C Hagner, T Hara, M Hierholzer, S Hiramatsu, K Hoshino, M Ieva, K Jakovcic, J Janicsko Csathy, B Janutta, C Jollet, F Juget, T Kawai, M Kazuyama, S H Kim, M Kimura, J Knuesel, K Kodama, M Komatsu, U Kose, I Kreslo, I Laktineh, C Lazzaro, J Lenkeit, A Ljubicic, A Longhin, G Lutter, K Manai, G Mandrioli, S Manzoor, A Marotta, J Marteau, H Matsuoka, N Mauri, F Meisel, A Meregaglia, M Messina, P Migliozzi, S Miyamoto, P Monacelli, K Morishima, U Moser, M T Muciaccia, N Naganawa, T Naka, M Nakamura, T Nakamura, T Nakano, V Nikitina, K Niwa, Y Nonoyama, S Ogawa, V Osedlo, D Ossetski, A Paoloni, B D Park, I G Park, A Pastore, L Patrizii, E Pennacchio, H Pessard, C Pistillo, N Polukhina, M Pozzato, K Pretzl, P Publichenko, F Pupilli, T Roganova, G Rosa, I Rostovtseva, A Rubbia, A Russo, O Ryazhskaya, D Ryzhikov, Y Sato, O Sato, V Saveliev, G Sazhina, A Schembri, L Scotto Lavina, H Shibuya, S Simone, M Sioli, C Sirignano, G Sirri, J S Song, M Spinetti, L Stanco, N Starkov, M Stipcevic, T Strauss, P Strolin, V Sugonyaev, Y Taira, S Takahashi, M Tenti, F Terranova, V Tioukov, V Togo, P Tolun, V Tsarev, S Tufanli, N Ushida, C Valieri, P Vilain, M Vladimirov, L Votano, J L Vuilleumier, G Wilquet, B Wonsak, J Wurtz, C S Yoon, J Yoshida, Y Zaitsev, S Zemskova, A Zghiche, R Zimmermann, Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Département Recherches Subatomiques (DRS-IPHC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Louis Pasteur - Strasbourg I-Centre National de la Recherche Scientifique (CNRS), OPERA, A. ANOKHINA, S. AOKI, A. ARIGA, L. ARRABITO, D. AUTIERO, A. BADERTSCHER, F. BAY, A. BERGNOLI, F. BERSANI GREGGIO, M. BESNIER, D. BICK, C. BOZZA, T. BRUGIERE, R. BRUGNERA, G. BRUNETTI, S. BUONTEMPO, E. CARRARA, A. CAZES, L. CHAUSSARD, M. CHERNYAVSKY, V. CHIARELLA, N. CHON-SEN, A. CHUKANOV, L. CONSIGLIO, M. COZZI, F. DAL CORSO, G. D’AMATO, N. D’AMBROSIO, G. DE LELLIS, Y. DÉCLAIS, M. DE SERIO, F. DI CAPUA, D. DI FERDINANDO, A. DI GIOVANNI, N. DI MARCO, C. DI TROIA, S. DMITRIEVSKI, A. DOMINJON, M. DRACOS, D. DUCHESNEAU, B. DULACH, S. DUSINI, J. EBERT, O. EGOROV, R. ENIKEEV, A. EREDITATO, L.S. ESPOSITO, J. FAVIER, G. FELICI, T. FERBER, R. FINI, A. FRANCESCHI, T. FUKUDA, C. FUKUSHIMA, V.I. GALKIN, V.A. GALKIN, A. GARFAGNINI, G. GIACOMELLI, M. GIORGINI, C. GOELLNITZ, D. GOLUBKOV, Y. GORNOUSHKIN, G. GRELLA, F. GRIANTI, M. GULER, G. GUSEV, C. GUSTAVINO, C. HAGNER, T. HARA, M. HIERHOLZER, S. HIRAMATSU, K. HOSHINO, M. IEVA, K. JAKOVCIC, J. JANICSKO CSATHY, B. JANUTTA, C. JOLLET, F. JUGET, T. KAWAI, M. KAZUYAMA, S.H. KIM, M. KIMURA, J. KNUESEL, K. KODAMA, M. KOMATSU, U. KOSE, I. KRESLO, I. LAKTINEH, C. LAZZARO, J. LENKEIT, A. LJUBICIC, A. LONGHIN, G. LUTTER, K. MANAI, G. MANDRIOLI, S. MANZOOR, A. MAROTTA, J. MARTEAU, H. MATSUOKA, N. MAURI, F. MEISEL, A. MEREGAGLIA, M. MESSINA, P. MIGLIOZZI, S. MIYAMOTO, P. MONACELLI, K. MORISHIMA, U. MOSER, M.T. MUCIACCIA, N. NAGANAWA, T. NAKA, M. NAKAMURA, T. NAKAMURA, T. NAKANO, V. NIKITINA, K. NIWA, Y. NONOYAMA, S. OGAWA, V. OSEDLO, D. OSSETSKI, A. PAOLONI, B.D. PARK, I.G. PARK, A. PASTORE, L. PATRIZII, E. PENNACCHIO, H. PESSARD, C. PISTILLO, N. POLUKHINA, M. POZZATO, K. PRETZL, P. PUBLICHENKO, F. PUPILLI, T. ROGANOVA, G. ROSA, I. ROSTOVTSEVA, A. RUBBIA, A. RUSSO, O. RYAZHSKAYA, D. RYZHIKOV, Y. SATO, O. SATO, V. SAVELIEV, G. SAZHINA, A. SCHEMBRI, L. SCOTTO LAVINA, H. SHIBUYA, S. SIMONE, M. SIOLI, C. SIRIGNANO, G. SIRRI, J.S. SONG, M. SPINETTI, L. STANCO, N. STARKOV, M. STIPCEVIC, T. STRAUSS, P. STROLIN, V. SUGONYAEV, Y. TAIRA, S. TAKAHASHI, M. TENTI, F. TERRANOVA, V. TIOUKOV, V. TOGO, P. TOLUN, V. TSAREV, S. TUFANLI, N. USHIDA, C. VALIERI, P. VILAIN, M. VLADIMIROV, L. VOTANO, J.L. VUILLEUMIER, G. WILQUET, B. WONSAK, J. WURTZ, C.S. YOON, J. YOSHIDA, Y. ZAITSEV, S. ZEMSKOVA, A. ZGHICHE, R. ZIMMERMANN, DI CAPUA, Francesco, Anokhina, A, Aoki, S, Ariga, A, Arrabito, L, Autiero, D, Badertscher, A, Bay, F, Bergnoli, A, Greggio, F. Bersani, Besnier, M, Bick, D, Bozza, C, Brugiere, T, Brugnera, R, Brunetti, G, Buontempo, S, Carrara, E, Cazes, A, Chaussard, L, Chernyavsky, M, Chiarella, V, Chon Sen, N, Chukanov, A, Consiglio, L, Cozzi, M, Corso, F. Dal, D'Amato, G, D'Ambrosio, N, Lellis, G. De, Déclais, Y, Serio, M. De, Ferdinando, D. Di, Giovanni, A. Di, Marco, N. Di, Troia, C. Di, Dmitrievski, S, Dominjon, A, Dracos, M, Duchesneau, D, Dulach, B, Dusini, S, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, Esposito, L. S, Favier, J, Felici, G, Ferber, T, Fini, R, Franceschi, A, Fukuda, T, Fukushima, C, Galkin, V. I, Galkin, V. A, Garfagnini, A, Giacomelli, G, Giorgini, M, Goellnitz, C, Golubkov, D, Gornoushkin, Y, Grella, G, Grianti, F, Guler, M, Gusev, G, Gustavino, C, Hagner, C, Hara, T, Hierholzer, M, Hiramatsu, S, Hoshino, K, Ieva, M, Jakovcic, K, Csathy, J. Janicsko, Janutta, B, Jollet, C, Juget, F, Kawai, T, Kazuyama, M, Kim, S. H, Kimura, M, Knuesel, J, Kodama, K, Komatsu, M, Kose, U, Kreslo, I, Laktineh, I, Lazzaro, C, Lenkeit, J, Ljubicic, A, Longhin, A, Lutter, G, Manai, K, Mandrioli, G, Manzoor, S, Marotta, A, Marteau, J, Matsuoka, H, Mauri, N, Meisel, F, Meregaglia, A, Messina, M, Migliozzi, P, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, Muciaccia, M. T, Naganawa, N, Naka, T, Nakamura, M, Nakamura, T, Nakano, T, Nikitina, V, Niwa, K, Nonoyama, Y, Ogawa, S, Osedlo, V, Ossetski, D, Paoloni, A, Park, B. D, Park, I. G, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pistillo, C, Polukhina, N, Pozzato, M, Pretzl, K, Publichenko, P, Pupilli, F, Roganova, T, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryazhskaya, O, Ryzhikov, D, Sato, Y, Sato, O, Saveliev, V, Sazhina, G, Schembri, A, Lavina, L. Scotto, Shibuya, H, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Song, J. S, Spinetti, M, Stanco, L, Starkov, N, Stipcevic, M, Strauss, T, Strolin, P, Sugonyaev, V, Taira, Y, Takahashi, S, Tenti, M, Terranova, F, Tioukov, V, Togo, V, Tolun, P, Tsarev, V, Tufanli, S, Ushida, N, Valieri, C, Vilain, P, Vladimirov, M, Votano, L, Vuilleumier, J. L, Wilquet, G, Wonsak, B, Wurtz, J, Yoon, C. S, Yoshida, J, Zaitsev, Y, Zemskova, S, Zghiche, A, Zimmermann, R., Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Bersani Greggio, F, Chon-Sen, N, Dal Corso, F, De Lellis, G, De Serio, M, Di Capua, F, Di Ferdinando, D, Di Giovanni, A, Di Marco, N, Di Troia, C, Esposito, L, Galkin, V, Janicsko Csathy, J, Kim, S, Muciaccia, M, Park, B, Park, I, Scotto Lavina, L, Song, J, Vuilleumier, J, Yoon, C, and Zimmermann, R

Subjects

Physics - Instrumentation and Detectors, Materials science, Physics::Instrumentation and Detectors, Nuclear engineering, RIVELATORI DI PARTICELLE, FISICA DEL NEUTRINO, FOS: Physical sciences, Particle identification methods, Tracking (particle physics), 01 natural sciences, law.invention, Particle identification method, law, Particle tracking detectors, 0103 physical sciences, Nuclear emulsion, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Detectors and Experimental Techniques, Nuclear Experiment, 010306 general physics, Lead (electronics), Neutrino oscillation, Instrumentation, Mathematical Physics, Large detector systems for particle and astroparticle physics, 010308 nuclear & particles physics, Hybrid detector, RADIOATTIVITÀ NATURALE DI BASSO LIVELLO, Detector, Hybrid detectors, Instrumentation and Detectors (physics.ins-det), Particle tracking detector, 3. Good health, Condensed Matter::Soft Condensed Matter, Large detector systems for particle and astroparticle physic, Emulsion, RIVELATORI IBRIDI, Neutrino, Cloud chamber

Abstract

The OPERA neutrino oscillation experiment is based on the use of the Emulsion Cloud Chamber (ECC). In the OPERA ECC, nuclear emulsion films acting as very high precision tracking detectors are interleaved with lead plates providing a massive target for neutrino interactions. We report on studies related to the effects occurring from the contact between emulsion and lead. A low radioactivity lead is required in order to minimize the number of background tracks in emulsions and to achieve the required performance in the reconstruction of neutrino events. It was observed that adding other chemical elements to the lead, in order to improve the mechanical properties, may significantly increase the level of radioactivity on the emulsions. A detailed study was made in order to choose a lead alloy with good mechanical properties and an appropriate packing technique so as to have a low enough effective radioactivity., Comment: 19 pages, 11 figures

Published

2008

443. Search for $?_{µ} \to ?_{t}$ oscillation with the OPERA experiment in the CNGS beam

Author

M. Kamiscioglu, A. Hollnagel, C. Göllnitz, Hiroki Rokujo, R. I. Enikeev, G. Rosa, Timur Dzhatdoev, Y. Nonoyama, Alessandra Pastore, J. Ebert, F. Di Capua, A. Longhin, L. Stanco, Krešimir Jakovčić, Maximiliano Sioli, G. Brunetti, J. Marteau, Amina Zghiche, L. Patrizii, G. Mandrioli, K Kogiso, I. Tezuka, S. Dusini, K. Hoshino, A. Olshevsky, Luigi Salvatore Esposito, J. Knuesel, V. F. Yakushev, O. Palamara, C Lazzaro, L. A. Goncharova, T. Fukuda, R. Rescigno, A. Schembri, Björn Wonsak, G. Sirri, D. Autiero, Cécile Jollet, Nicola D'Ambrosio, Artem Chukanov, Tatsuhiro Naka, M. Nakamura, Dmitry Golubkov, U. Moser, J. Goldberg, Osamu Sato, P. F. Loverre, C. Pistillo, V. G. Ryasny, M. Giorgini, A. Ben Dhahbi, T. Matsuo, A. Russo, Vitaliano Chiarella, K. Pretzl, N. G. Polukhina, O. G. Ryazhskaya, O Altinok, W. Schmidt-Parzefall, M. S. Vladimirov, T. Hara, Guillaume Lutter, V. Nikitina, Pierre Vilain, M. Pozzato, H. Pessard, V. A. Matveev, G Shoziyoev, H. Shibuya, N. Di Marco, I. Kreslo, A. Garfagnini, A. Cazes, Y. Nakatsuka, T. Tran, L. Chaussard, F. Grianti, A. S. Malgin, R. Brugnera, A. M. Guler, S. Dmitrievski, K. Hamada, M. Tenti, F. Meisel, S. Simone, T. Yoshioka, M. Chernyavskiy, Caren Hagner, J. L. Vuilleumier, P. Del Amo Sanchez, J. Favier, T. Brugière, R. A. Fini, Cristiano Bozza, G. Romano, N. M. Okateva, G. Grella, A. Di Crescenzo, D. Duchesneau, F. Juget, L. Votano, J. Yoshida, K. Suzuki, Tomoko Ariga, M. De Serio, C. S. Yoon, Thomas Strauss, E. Medinaceli, S. Miyamoto, B D Park, Y. A. Gornushkin, M Stellacci, A. Badertscher, E. Pennacchio, Nobuko Kitagawa, Akitaka Ariga, F. Terranova, M. Kimura, F. Brunet, Yu. Zaitsev, H. Ishida, D. Di Ferdinando, Torben Ferber, P. Migliozzi, N. Agafonova, P. Monacelli, R. Zimmermann, P. Strolin, T. Omura, F. Pupilli, S. Mikado, Naotaka Naganawa, André Rubbia, Shigeki Aoki, B. Klicek, Mario Stipčević, I. Rostovtseva, L. Scotto Lavina, C. Gustavino, Marcos Dracos, A. M. Anokhina, Katsumi Ishiguro, N. I. Starkov, Utku Kose, A. Sheshukov, Yoshihiro Sato, Salvatore Buontempo, M. Spinetti, Masahiro Komatsu, M. T. Muciaccia, S. Ogawa, M. Hierholzer, Toshiyuki Nakano, S. Tufanli, Gaston Wilquet, M. Ieva, G. De Lellis, K. Kodama, P. Tolun, M. Paniccia, A. V. Bagulya, Ivano Lippi, Kunihiro Morishima, Kimio Niwa, S H Kim, S. Zemskova, O. Egorov, Satoru Takahashi, F. Dal Corso, Ante Ljubičić, Anselmo Meregaglia, Alessandro Paoloni, Antonio Ereditato, C. Sirignano, I. G. Park, Dmitry V. Naumov, J. Lenkeit, A. Bertolin, J. S. Song, G. Giacomelli, A. Trabelsi, K Mannai, V. Tioukov, A. B. Aleksandrov, D. Frekers, T. M. Roganova, N. Mauri, Y. Déclais, Agafonova, N, Aleksandrov, A, Altinok, O, Anokhina, A, Aoki, S, Ariga, A, Ariga, T, Autiero, D, Badertscher, A, Bagulya, A, Ben Dhahbi, A, Bertolin, A, Bozza, C, Brugière, T, Brugnera, R, Brunet, F, Brunetti, G, Buontempo, S, Cazes, A, Chaussard, L, Chernyavskiy, M, Chiarella, V, Chukanov, A, D'Ambrosio, N, Dal Corso, F, Déclais, Y, del Amo Sanchez, P, De Lellis, G, De Serio, M, DI CAPUA, Francesco, Di Crescenzo, A, Di Ferdinando, D, Di Marco, N, Dmitrievski, S, Dracos, M, Duchesneau, D, Dusini, S, Dzhatdoev, T, Ebert, J, Egorov, O, Enikeev, R, Ereditato, A, Esposito, L. S, Favier, J, Ferber, T, Fini, R. A, Frekers, D, Fukuda, T, Garfagnini, A, Giacomelli, G, Giorgini, M, Göllnitz, C, Goldberg, J, Golubkov, D, Goncharova, L, Gornushkin, Y, Grella, G, Grianti, F, Guler, A. M, Gustavino, C, Hagner, C, Hamada, K, Hara, T, Hierholzer, M, Hollnagel, A, Hoshino, K, Ieva, M, Ishida, H, Ishiguro, K, Jakovcic, K, Jollet, C, Juget, F, Kamiscioglu, M, Kim, S. H, Kimura, M, Kitagawa, N, Klicek, B, Knuesel, J, Kodama, K, Kogiso, K, Komatsu, M, Kose, U, Kreslo, I, Lazzaro, C, Lenkeit, J, Lippi, I, Ljubicic, A, Longhin, A, Loverre, P, Lutter, G, Malgin, A, Mandrioli, G, Mannai, K, Marteau, J, Matsuo, T, Matveev, V, Mauri, N, Medinaceli, E, Meisel, F, Meregaglia, A, Migliozzi, P, Mikado, S, Miyamoto, S, Monacelli, P, Morishima, K, Moser, U, Muciaccia, M. T, Naganawa, N, Naka, T, Nakamura, M, Nakano, T, Nakatsuka, Y, Naumov, D, Nikitina, V, Niwa, K, Nonoyama, Y, Ogawa, S, Okateva, N, Olshevsky, A, Omura, T, Palamara, O, Paniccia, M, Paoloni, A, Park, B. D, Park, I. G, Pastore, A, Patrizii, L, Pennacchio, E, Pessard, H, Pistillo, C, Polukhina, N, Pozzato, M, Pretzl, K, Pupilli, F, Rescigno, R, Roganova, T, Rokujo, H, Romano, G, Rosa, G, Rostovtseva, I, Rubbia, A, Russo, A, Ryasny, V, Ryazhskaya, O, Sato, O, Sato, Y, Schembri, A, Schmidt Parzefall, W, Scotto Lavina, L, Sheshukov, A, Shibuya, H, Shoziyoev, G, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Song, J. S, Spinetti, M, Stanco, L, Starkov, N, Stellacci, M, Stipcevic, M, Strauss, T, Strolin, P, Suzuki, K, Takahashi, S, Tenti, M, Terranova, F, Tezuka, I, Tioukov, V, Tolun, P, Trabelsi, A, Tran, T, Tufanli, S, Vilain, P, Vladimirov, M, Votano, L, Vuilleumier, J. L, Wilquet, G, Wonsak, B, Yakushev, V, Yoon, C. S, Yoshida, J, Yoshioka, T, Zaitsev, Y, Zemskova, S, Zghiche, A, and Zimmermann, R.

Subjects

Particle physics, Charged current, Neutrino oscillation, Physics::Instrumentation and Detectors, General Physics and Astronomy, 01 natural sciences, 7. Clean energy, Nuclear physics, Experiment, Neutrino beam, Neutrino experiment, 0103 physical sciences, Nuclear emulsion, Nuclear Experiment, 010306 general physics, Physics, ICARUS, Large Hadron Collider, 010308 nuclear & particles physics, Monte Carlo Simulation, Monte Carlo methods Engineering main heading: Elementary particles, High energy, Electronic detector, Measurements of neutrino speed, High Energy Physics::Experiment, Neutrino, Statistical significance Engineering controlled terms: Emulsification, Event (particle physics)

Abstract

The OPERA neutrino experiment in the underground Gran Sasso Laboratory (LNGS) was designed to perform the first detection of neutrino oscillations in direct appearance mode in the vμ→ v τ channel, the v τ signature being the identification of the τ -lepton created in its charged current interaction. The hybrid apparatus consists of a large mass emulsion film/lead target complemented by electronic detectors. Placed in the LNGS, it is exposed to the high-energy long-baseline CERN Neutrino beam to Gran Sasso (CNGS) 730 km away from the neutrino source. The observation of a first v τ candidate event was reported in 2010. In this paper, we discuss the result of the analysis of the data taken during the first two years of operation (2008-2009) underlining the major improvements brought to the analysis chain and to the Monte Carlo simulations. The statistical significance of the one event observed so far is then evaluated to 95%.

Published

2012

444. SELNET clinical practice guidelines for soft tissue sarcoma and GIST

Author

Shreyaskumar Patel, Jean-Yves Blay, S. Moura David, Y. Pfluger, K. Scotlandi, M. Angel, M. Chacón, A. Carvajal Montoya, J. Haro, J. Bollard, N. Jimenez, Bernd Kasper, Claudia Haydee Sarai Caro-Sánchez, A. G. Nascimento, T. Soule, S. Casavilca-Zambrano, R. Badilla, Héctor Martínez-Said, F. Campos, M. Farias-Loza, Alberto Righi, A. P. Dei Tos, Armelle Dufresne, E. J. Ortiz-Cruz, Hans Gelderblom, G. Lutter, B. B. Lopes David, J. M. Morales Pérez, C. A. Mello, Daniel Bernabeu, T. T. G. Santos, V. Castro-Oliden, Jorge Luis Martínez-Tlahuel, D. Donati, L. Huanca, M. C. Gómez-Mateo, D.Y. Garcia-Ortega, Paola Collini, M. Clara, P. Fernandez, Emanuela Palmerini, F. Waisberg, E. Zamora Estrada, J. Martin-Broto, Antonio Lopez-Pousa, Mikael Eriksson, A. Rodriguez, François Gouin, Claudia Valverde, S. Provenzano, B. Araya, Nadia Hindi, S. Aguiar, Silvia Stacchiotti, H. R. Dominguez Malagon, M. Cuellar, T. Frisoni, Alessandro Gronchi, R. Correa Genoroso, A.M. Frezza, Marie Karanian, R. Salas, B. Carvajal, F. D. Costa, Blay, J.Y., Hindi, N., Bollard, J., Aguiar, S., Angel, M., Araya, B., Badilla, R., Bernabeu, D., Campos, F., Caro-Sánchez, C.H.S., Carvajal, B., Carvajal Montoya, A., Casavilca-Zambrano, S., Castro-Oliden, V., Chacón, M., Clara, M., Collini, P., Correa Genoroso, R., Costa, F.D., Cuellar, M., dei Tos, A.P., Dominguez Malagon, H.R., Donati, D., Dufresne, A., Eriksson, M., Farias-Loza, M., Fernandez, P., Frezza, A.M., Frisoni, T., Garcia-Ortega, D.Y., Gelderblom, H., Gouin, F., Gómez-Mateo, M.C., Gronchi, A., Haro, J., Huanca, L., Jimenez, N., Karanian, M., Kasper, B., Lopes David, B.B., Lopez-Pousa, A., Lutter, G., Martinez-Said, H., Martinez-Tlahuel, J., Mello, C.A., Morales Pérez, J.M., Moura David, S., Nascimento, A.G., Ortiz-Cruz, E.J., Palmerini, E., Patel, S., Pfluger, Y., Provenzano, S., Righi, A., Rodriguez, A., Salas, R., Santos, T.T.G., Scotlandi, K., Soule, T., Stacchiotti, S., Valverde, C., Waisberg, F., Zamora Estrada, E., and Martin-Broto, J.

Subjects

medicine.medical_specialty, Gastrointestinal Stromal Tumors, MEDLINE, Guidelines as Topic, Soft Tissue Neoplasms, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Radiology, Nuclear Medicine and imaging, 030212 general & internal medicine, neoplasms, GiST, business.industry, SELNET, SOFT TISSUE SARCOMA, GIST, GUIDELINES, Soft tissue sarcoma, Sarcoma, General Medicine, medicine.disease, digestive system diseases, 3. Good health, Clinical Practice, Latin America, Oncology, 030220 oncology & carcinogenesis, Radiology, business

Abstract

Soft tissue sarcoma (STS) is a heterogeneous group of neoplasms, encompassing >80 different histologic subtypes. Approximately three quarter of sarcoma arise from soft-tissue, about 15% are gastrointestinal stromal tumours (GISTs) and bone sarcoma represent the remaining 10%. The current guidelines will focus on soft-tissue and GIST, excluding Kaposi sarcoma and non-pleomorphic rhabdomyosarcoma

445. Surgical Myocardial Revascularization with a Composite T-graft from the Left Internal Mammary Artery-Comparison of the Great Saphenous Vein with the Radial Artery.

Author

Eide A, Jussli-Melchers J, Friedrich C, Haneya A, Lutter G, Cremer J, and Schoettler J

Subjects

Humans, Male, Female, Middle Aged, Treatment Outcome, Aged, Risk Factors, Retrospective Studies, Time Factors, Internal Mammary-Coronary Artery Anastomosis adverse effects, Internal Mammary-Coronary Artery Anastomosis mortality, Mammary Arteries surgery, Mammary Arteries transplantation, Postoperative Complications etiology, Vascular Patency, Germany, Coronary Artery Bypass adverse effects, Coronary Artery Bypass mortality, Saphenous Vein transplantation, Radial Artery transplantation, Radial Artery surgery, Coronary Artery Disease surgery, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease mortality

Abstract

Background:  Composite T-grafts between left internal mammary artery (LIMA) and radial artery (RA) are a common concept in complete arterial myocardial revascularization. The aim of the present study was to investigate whether the use of the great saphenous vein (SV) instead of RA leads to comparably good results in terms of outcome in this context., Methods:  Patients who underwent myocardial revascularization with a T-graft using RA or a segment of SV to the right coronary artery or circumflex artery between the beginning of 2014 and the end of 2019 at the Department of Cardiovascular Surgery, University Hospital Schleswig-Holstein, Campus Kiel were included. To minimize surgical variation, only patients were observed by a single senior surgeon in the department. Exclusion criteria were previous cardiac surgery, preoperative extracorporeal circulatory support, off-pump surgery, additional aortocoronary bypasses, and cardiac combination procedures., Results:  A total of 115 patients were studied. In 55 patients, the T-graft was placed between the LIMA and SV, and in 60 patients, the T-graft was placed between the LIMA and RA. Patients in the SV group were older (70.6 ± 7.8 vs. 58.5 ± 10.0 years; p  < 0.001), suffered more frequently from non-ST elevation myocardial infarction (12.7 vs. 1.7%; p  = 0.027), arterial hypertension (83.6 vs. 61.7%; p  = 0.009), and atrial fibrillation (18.2 vs. 1.7%; p  = 0.003). They were less likely to be active smokers (16.4 vs. 38.3%; p  = 0.009) and less likely to have a history of variceal surgery (0 vs. 15.0%; p  = 0.003). Calcification of the ascending aorta was also found more frequently in the saphenous group (18.2 vs. 3.3%, p  = 0.009). Operative times and number of distal anastomoses did not differ significantly between the two groups. Postoperative deliriums (16.7 vs. 5.0%; p  = 0.043) were observed more frequently in venous patients. Wound healing disorders of the leg (11.1 vs. 0%; p  = 0.011) did only occur in SV group and wound infections of the arm only in the RA group. Complete follow-up was achieved in 74.8% of cases. Median follow-up was 60.3 (39.6; 73.2) months. Serious adverse cardiac-cerebral events (19.0 vs. 22.7%; p  = 0.675) and mortality (14.5 vs. 6.7%; p  = 0.167) did not differ significantly between the groups at follow-up. Myocardial infarction (0 vs. 2.5%; p  = 1.000) and stroke (0 vs. 7.5%; p  = 0.245) were observed exclusively in RA group. Percutaneous coronary intervention was required in single patients of RA group (0 vs. 15.0%; p  = 0.028). No patient from either group underwent repeat coronary artery bypass grafting (CABG). The patients of SV group had angiographically competent grafts and open anastomoses. Graft failure was noted in a single patient in RA group, in which case both grafts and native coronary vessels were stented. Kaplan-Meier analysis revealed no significant survival disadvantage for SV group compared with RA group., Conclusion:  CABG with a composite T-graft between LIMA and a segment of SV may be comparable to bypass surgery with a composite T-graft between LIMA and RA. This might be true in terms of morbidity and mortality over an intermediate-term observation period. The results of our studies give rise to the hypothesis that the decision not to perform aortic bypass anastomosis may be more important than the choice of graft material., Competing Interests: None declared., (Thieme. All rights reserved.)

Published

2024

446. Hydrodynamic Assessment of Explanted Degenerated Transcatheter Aortic Valves: Novel Insights Into Noncalcific and Calcific Mechanisms.

Author

Sathananthan J, Nigade A, Meier D, Navarro D, Spencer J, Lai A, Gill H, Pirelli L, Webb JG, Wood DA, Lutter G, Puehler T, Tang GHL, Fukuhara S, and Sellers SL

Subjects

Humans, Aged, Female, Aged, 80 and over, Male, Middle Aged, Time Factors, Device Removal, Aortic Valve Stenosis physiopathology, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery, Hemodynamics, Biomechanical Phenomena, Materials Testing, Video Recording, Heart Valve Prosthesis, Aortic Valve physiopathology, Aortic Valve diagnostic imaging, Aortic Valve surgery, Aortic Valve pathology, Calcinosis physiopathology, Calcinosis diagnostic imaging, Calcinosis pathology, Calcinosis surgery, Hydrodynamics, X-Ray Microtomography, Prosthesis Design, Transcatheter Aortic Valve Replacement instrumentation, Transcatheter Aortic Valve Replacement adverse effects, Prosthesis Failure, Registries

Abstract

Background: The etiology of transcatheter aortic valve (TAV) degeneration is poorly understood, particularly noncalcific mechanisms., Objectives: The authors sought to investigate noncalcific and calcific mechanisms of TAV degeneration and evaluate their impact on leaflet function by bench testing, imaging, and histology., Methods: TAV explants were obtained from the EXPLANT THV registry and clinical institutions. Hydrodynamic assessment was performed using a heart valve pulse duplicator system under physiological conditions. Micro-computed tomography, high-resolution photography, high speed video, and hematoxylin and eosin staining were used to evaluate the morphological appearance, leaflet kinematics, and calcium burden of TAVs., Results: A total of 14 explants were evaluated: 10 self-expanding CoreValve/Evolut TAVs (Medtronic), 3 balloon-expandable SAPIEN 3 TAVs (Edwards Lifesciences), and 1 mechanically expandable Lotus TAV (Boston Scientific). The median patient age at explantation was 73.0 years (Q1-Q3: 64.5-80.0 years), with a time to explantation of 4 years 1 month (1 year 5 months to 4 years 11 months). Six TAV explants were found to have leaflet calcification (162.4 mm 3 ; 58.8-603.0 mm 3 ), and 8 had no calcification detectable by micro-computed tomography and histology. All samples had impaired leaflet kinematics. There was no significant difference in the hydrodynamic mean gradient between calcified (47.2 mm Hg; 26.6-74.1 mm Hg) and noncalcified (27.6 mm Hg; 15.2-36.7 mm Hg; P = 0.28) TAVs. Leaflet calcification had a weak but nonsignificant association with the hydrodynamic mean gradient (r = 0.42; P = 0.14)., Conclusions: TAV function can be severely impacted by noncalcific and calcific mechanisms of tissue degeneration. Importantly, functional stenosis can occur in TAVs in the absence of obvious and significant calcification., Competing Interests: Funding Support and Author Disclosures This work was supported by Medtronic, USA, and the Cardiovascular Translational Laboratory, Canada. Dr Sathananthan is the chief medical officer for Interventional Cardiology Therapies from Boston Scientific; a consultant to Medtronic and Edwards Lifesciences; has received speaking fees from Edwards Lifesciences, and NVT; and has received research support from Medtronic, Edwards Lifesciences, and Vivitro Labs. Mr Nigade, Dr Spencer, and Mr Navarro are employees and shareholders of Medtronic. Dr Meier has received an institutional grant from Edwards Lifesciences. Dr Pirelli is a consultant and receives speakers honoraria from Medtronic and Edwards Lifesciences. Dr Webb is a consultant to and has received research funding from Edwards Lifesciences, Abbott, and ViVitro Labs. Dr Wood is a consultant and receives unrestricted grant support from Medtronic, Edwards Lifesciences, and Abbott Vascular. Dr Lutter is a consultant to Medtronic, Edwards Lifesciences, and Abbott. Dr Puehler is a consultant to Abbott. Dr Tang has received speaker honoraria and served as a physician proctor, consultant, advisory board member, TAVR publications committee member, APOLLO trial screening committee member and IMPACT MR steering committee member for Medtronic, has received speaker honoraria and served as a physician proctor, consultant, advisory board member and TRILUMINATE trial anatomic eligibility and publications committee member for Abbott Structural Heart, has served as an advisory board member for Boston Scientific and JenaValve, a consultant and physician screening committee member for Shockwave Medical, a consultant for NeoChord, Peija Medical and Shenqi Medical Technology, and has received speaker honoraria from Siemens Healthineers. Dr Fukuhara is a consultant for Medtronic, Terumo Aortic, and Artivion. Dr Sellers is a consultant for Medtronic, Edwards Lifesciences, and Anteris; and has received research support from Medtronic, Edwards Lifesciences, Vivitro Labs, and HeartFlow. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

447. Transcatheter aortic valve replacement in patients with severe aortic valve stenosis and concomitant mitral valve regurgitation - 5 years follow-up.

Author

Henrique Rangel R, Christoph Voran J, Seoudy H, Villinger T, Lutter G, Puehler T, Kreidel F, Frank J, Salem M, Frank D, and Saad M

Abstract

Objectives: To investigate the change in severity of mitral regurgitation (MR) after transcatheter aortic valve replacement (TAVR) and its effect on 5-year mortality., Background: There is inconsistency in literature on pre-existing MR influencing long-term survival in patients who undergo TAVR., Methods: Patients who underwent TAVR at the University Hospital Schleswig-Holstein (USKH) Campus Kiel between March 2009 and February 2018 have been enrolled. Echocardiography determined the degree of MR before and within 7 days after TAVR. Patients were divided into two groups according to their MR at baseline: MR-grade ≤ 2 (non-relevant MR, nr-MR) and baseline MR-grade > 2 (relevant MR, r-MR). Primary endpoint was a composite of MR baseline influence on mortality and MR reduction and its' impact on mortality., Results: A total of 820 patients (642 nr-MR and 178 in r-MR) were included in this study. Of these, 167 patients showed an improvement in MR-grade. Thereof 106 (63.5 %) referred to r-MR with a significant decrease in mean MR-grade (p < 0.01). Systolic pulmonary artery pressure (sPAP) (p < 0.01) and NT-proBNP (p = 0.03) decreased in patients who had an improvement. There was no significant difference in 5-year mortality for MR at baseline (p = 0.35) or reduction in mortality for r-MR patients with an MR improvement compared to patients with worsening or equal MR status (p = 0.80)., Conclusion: In patients undergoing TAVR, 63.5 % of patients with MR-grade ≥ 2 at baseline showed an improvement of grade of MR after TAVR with reduction of their sPAP and NT-proBNP values but there was no significant difference in mortality., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

448. TMVR after TA-TAVR: a re-redo surgery-case report.

Author

Pommert NS, Puehler T, Voges I, Sellers S, and Lutter G

Abstract

Introduction: Transcatheter mitral valve replacement (TMVR) is a valuable treatment option in patients with severe mitral regurgitation. Prior transapical transcatheter aortic valve replacement (TA-TAVR) may complicate the procedure and is therefore considered a relative contraindication. In this case report, the authors describe the successful TMVR as a tertiary cardiac surgery and transapical redo procedure., Case Summary: An 83-year-old male patient, suffering from dyspnoea and angina, was diagnosed with severe mitral valve regurgitation (MR). He had already undergone cardiac surgery in the form of coronary artery bypass grafting at the age of 64 and TA-TAVR at 79 years. After a failed attempt at mitral valve transcatheter edge-to-edge repair, he opted for TMVR. Pre-TMVR computed tomography simulation was used to analyse possible interactions between the prostheses and to predict the neo-left ventricular outflow tract (neo-LVOT). The operation was carried out without complications. There was no bleeding and the LV function remained unchanged. On MRI, the valves were perfectly aligned without any signs of paravalvular leakage or LVOT obstruction. The patient was discharged seven days postoperatively. At the one-year follow up, there was no need for rehospitalisation and the patient had clinically improved (from NYHA IV to II). Echocardiography demonstrated a mean transvalvular gradient of under 5 mmHg and no residual MR., Conclusion: A redo transapical access for TMVR as a tertiary cardiac operation can be easily performed. Pre-operative CT suggested good alignment of the aortic and mitral valved stent which was confirmed postoperatively., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (© 2024 Pommert, Puehler, Voges, Sellers and Lutter.)

Published

2024

449. Optimization of Enzymatic and Chemical Decellularization of Native Porcine Heart Valves for the Generation of Decellularized Xenografts.

Author

Saeid Nia M, Floder LM, Seiler JA, Puehler T, Pommert NS, Berndt R, Meier D, Sellers SL, Sathananthan J, Zhang X, Hasler M, Gorb SN, Warnecke G, and Lutter G

Subjects

Animals, Swine, Humans, Child, Heterografts, Transplantation, Heterologous, Tissue Engineering, Bioprosthesis, Heart Valve Prosthesis

Abstract

One of the most important medical interventions for individuals with heart valvular disease is heart valve replacement, which is not without substantial challenges, particularly for pediatric patients. Due to their biological properties and biocompatibility, natural tissue-originated scaffolds derived from human or animal sources are one type of scaffold that is widely used in tissue engineering. However, they are known for their high potential for immunogenicity. Being free of cells and genetic material, decellularized xenografts, consequently, have low immunogenicity and, thus, are expected to be tolerated by the recipient's immune system. The scaffold ultrastructure and ECM composition can be affected by cell removal agents. Therefore, applying an appropriate method that preserves intact the structure of the ECM plays a critical role in the final result. So far, there has not been an effective decellularization technique that preserves the integrity of the heart valve's ultrastructure while securing the least amount of genetic material left. This study demonstrates a new protocol with untraceable cells and residual DNA, thereby maximally reducing any chance of immunogenicity. The mechanical and biochemical properties of the ECM resemble those of native heart valves. Results from this study strongly indicate that different critical factors, such as ionic detergent omission, the substitution of Triton X-100 with Tergitol, and using a lower concentration of trypsin and a higher concentration of DNase and RNase, play a significant role in maintaining intact the ultrastructure and function of the ECM.

Published

2024

450. Tricuspid Regurgitation and TAVR: Outcomes, Risk Factors and Biomarkers.

Author

Puehler T, Pommert NS, Freitag-Wolf S, Seoudy H, Ernst M, Haneya A, Sathananthan J, Sellers SL, Meier D, Schöttler J, Müller OJ, Salehi Ravesh M, Saad M, Frank D, and Lutter G

Abstract

Background . The significance of concomitant tricuspid regurgitation (TR) in the context of transcatheter aortic valve replacement (TAVR) remains unclear. This study aimed to analyze the severity of TR before and after TAVR with regard to short- and long-term survival and to analyze the influencing factors. Methods . In our retrospective analysis, TR before and after TAVR was examined and patients were classified into groups accordingly. Special attention was paid to patients with post-interventional changes in TR. Mortality after TAVR was considered the primary endpoint of the analysis and major complications according to the Valve Academic Research Consortium 3 (VARC3) were compared. Moreover, biomarkers and risk factors for worsening or improvement of TR through TAVR were analyzed. Results . Among 775 patients who underwent TAVR in our center between January 2009 and December 2019, 686 patients (89%) featured low- and 89 patients (11%) high-grade TR. High-grade pre-TAVR TR was associated with worse short- (30-day), mid- (2-year) and long-term survival up to 8 years. Even though in nearly half of the patients with high-grade TR the regurgitation improved within seven days after TAVR (n = 42/89), this did not result in a survival benefit for this subgroup. On the other hand, a worsening of low-grade TR was seen in more than 10% of the patients (n = 73/686), which was also associated with a worse prognosis. Predictors of worsening of TR after TAVR were adipositas, impaired right ventricular function and the presence of mild TR. Age, atrial fibrillation, COPD, impaired renal function and elevated cardiac biomarkers were risk factors for mortality after TAVR independent from the grade of TR. Conclusions . Not only pre-interventional, but also post-TAVR high-grade TR is associated with a worse prognosis after TAVR. TAVR can change concomitant tricuspid regurgitation, but improvement does not have any impact on short- and long-term survival. Worsening of TR after TAVR is possible and impairs the prognosis.

Published

2024