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676 results on '"Morel, F."'

1. First demonstration of in-beam performance of bent Monolithic Active Pixel Sensors

Author

project, ALICE ITS, Rinella, G. Aglieri, Agnello, M., Alessandro, B., Agnese, F., Akram, R. S., Alme, J., Anderssen, E., Andreou, D., Antinori, F., Apadula, N., Atkinson, P., Baccomi, R., Badalà, A., Balbino, A., Bartels, C., Barthel, R., Baruffaldi, F., Belikov, I., Beole, S., Becht, P., Bhatti, A., Bhopal, M., Bianchi, N., Blidaru, M. B., Boca, G., Bok, J., Bonomi, G., Bonora, M., Borri, M., Borshchov, V., Botta, E., Bruno, G. E., Buckland, M., Bufalino, S., Cai, M., Camerini, P., Cariola, P., Catalano, F., Sanchez, C. Ceballos, Chakaberia, I., Chartier, M., Colamaria, F., Colella, D., Collu, A., Concas, M., Contin, G., Costanza, S., Cui, P., Dainese, A., Dainton, J. B., De Cilladi, L., De Martin, C., De Robertis, G., Deng, W., Di Mauro, A., Ding, Y., Durkac, M., Elia, D., Ersdal, M. R., Faggin, M., Fan, F., Fantoni, A., Fecchio, P., Feliciello, A., Feofilov, G., Ferk, A., Ferencei, J., Fiorenza, G., Flores, A. N., Fragiacomo, E., Gajanana, D., Gal, A., Gao, C., Gargiulo, C., Gianotti, P., Giubilato, P., Grant, A., Greiner, L., Grelli, A., Groettvik, O. S., Grosa, F., Hu, C. Guo, Hannigan, R., Hasenbichler, J. A., Helstrup, H., Hillemanns, H., Hills, C., Hindley, P., Hippolyte, B., Hofman, B., Hong, G. H., Huang, G., Iddon, J. P., Ilyas, H., Imhoff, M. A., Isakov, A., Jadlovska, A., Jadlovska, S., Jadlovsky, J., Jaelani, S., Johnson, T., Junique, A., Kalinak, P., Kalweit, A., Keil, M., Khabanova, Z., Khan, H., Kim, B., Kim, C., Kim, J., Kim, T., Klein, J., Kluge, A., Kobdaj, C., Kotliarov, A., Králik, I., Krizek, F., Kugathasan, T., Kuhn, C., Kuijer, P. G., Kushpil, S., Kweon, M. J., Kwon, J. Y., Kwon, Y., La Rocca, P., Lakrathok, A., Langoy, R., Larionov, P., Laudi, E., Lazareva, T., Lea, R., Lemmon, R. C., Li, X. L., Lien, J., Lim, B., Lim, S. H., Lindsay, S., Liu, A., Liu, J., Lunardon, M., Luparello, G., Lupi, M., Mager, M., Maire, A., Malik, Q. W., Mandaglio, G., Manzari, V., Mao, Y., Margagliotti, G. V., Markert, C., Marras, D., Martinengo, P., Masciocchi, S., Masera, M., Masoni, A., Mastroserio, A., Matuoka, P. F. T., Mazza, G., Mazzaschi, F., Mazzoni, M. A., Morel, F, Muccifora, V., Mulliri, A., Musa, L., Nesbo, S. V., Nesterov, D., Norman, J., Park, J., Patra, R. N, Pastore, C., Pei, H., Peng, X., Piano, S., Pinto, C., Pisano, S., Politano, S., Prakasa, E., Prino, F., Protsenko, M., Puccio, M., Rachevski, A., Ramello, L., Rami, F., Ravasenga, I., Rehman, A., Reidt, F., Riggi, F., Røed, K., Röhrich, D., Ronchetti, F., Rosano, A., Rossewij, M. J., Rossi, A., Rui, R., Russo, R., Sadikin, R., Sarritzu, V., Schambach, J., Senyukov, S., Seo, J. J., Shahoyan, R., Shaukat, S., Siddhanta, S., Sitta, M., Snellings, R. J. M., Snoeys, W., Songmoolnak, A., Sonneveld, J., Soramel, F., Suljic, M., Sumowidagdo, S., Sun, D., Sun, X., Tambave, G. J., Tersimonov, G., Tkacik, M., Toppi, M., Trifiró, A., Trogolo, S., Trubnikov, V., Turrisi, R., Tveter, T. S., Tymchuck, I., Ullaland, K., Urioni, M., Usai, G. L., Valle, N., van Doremalen, L. V. R., Vanat, T., Van Hoorne, J. W., Varga-Kofarago, M., Velure, A., Wang, D., Wang, Y., Wikne, J., Wright, J. R., Xu, R., Yang, P., Yin, Z., Yoo, I. -K., Yoon, J. H., Yuan, S., Zaccolo, V., Zhang, E., Zhang, X., Zherebchevskii, V., Zhou, D., Zhu, J., Zhu, Y., Zinovjev, G., and Zurlo, N.

Subjects
Physics - Instrumentation and Detectors
Abstract

A novel approach for designing the next generation of vertex detectors foresees to employ wafer-scale sensors that can be bent to truly cylindrical geometries after thinning them to thicknesses of 20-40$\mu$m. To solidify this concept, the feasibility of operating bent MAPS was demonstrated using 1.5$\times$3cm ALPIDE chips. Already with their thickness of 50$\mu$m, they can be successfully bent to radii of about 2cm without any signs of mechanical or electrical damage. During a subsequent characterisation using a 5.4GeV electron beam, it was further confirmed that they preserve their full electrical functionality as well as particle detection performance. In this article, the bending procedure and the setup used for characterisation are detailed. Furthermore, the analysis of the beam test, including the measurement of the detection efficiency as a function of beam position and local inclination angle, is discussed. The results show that the sensors maintain their excellent performance after bending to radii of 2cm, with detection efficiencies above 99.9% at typical operating conditions, paving the way towards a new class of detectors with unprecedented low material budget and ideal geometrical properties.

Published
2021

2. Observations on MIMOSIS-0, the first dedicated CPS prototype for the CBM MVD

Author

Deveaux, M., Arnoldi-Meadows, B., Bertolone, G., Claus, G., Dorokhov, A., Goffe, M., Himmi, A., Jaaskelainen, K., Klaus, P., Koziel, M., Marx, F., Morel, F., Müntz, C., Pham, H., Specht, M., Valin, I., Stroth, J., and Winter, M.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The Micro Vertex Detector (MVD) of the future Compressed Baryonic Matter (CBM) experiment at FAIR will have to provide a spatial precision of $\sim 5~\rm \mu m$ in combination with a material budget of 0.3\% - 0.5\% X$_0$ for a full detector station. Simultaneously, it will have to handle the rate and radiation load of operating the fixed target experiment at an average collision rate of 100 kHz (4 - 10 AGeV Au+Au collisions) or 10 MHz (up to 28 GeV p-A collisions). The harsh requirements call for a dedicated detector technology, which is the next generation CMOS Monolithic Active Pixel Sensor MIMOSIS. We report about the requirements for the sensor, introduce the design approach being followed to cope with it and show first test results from a first sensor prototype called MIMOSIS-0 ., Comment: Proceedings of the VCI2019 - The 15th Vienna Conference on Instrumentation, 4 pages, 7 figures

Published
2019
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4. Isoniazid-monoresistant tuberculosis in France: Risk factors, treatment outcomes and adverse events

Author

Bouchaud, O., Billard-Pomares, T., Carbonnelle, E., Mechaï, F., Nunes, H., Pellan, M., Morin, A.-S., Dumesnil, C., Dumoulin, J., Roux, A.-L., Jachym, M., le Du, D., Marigot-Outtandy, D., Abgrall, S., Chambrin, V., Guillet, C., Fantin, B., Galy, A., Decousser, J.-W., Lelièvre, J.D., Gallien, S., Nebbad-Lechani, B., Deconinck, L., Bulifon, S., Fortineau, N., Wyplosz, B., Cohen, F., Lemaitre, N., Crestani, B., Grall, N., Pierre-Audigier, C., Rioux, C., Yazdanpanah, Y., Le Jeunne, C., Morand, P., Roche, N., Pavie, J., Loulergue, P., Delcey, V., Lecorché, E., Munier, A.-L., Mougari, F., Sellier, P., Bille, E., Ferroni, A., Guéry, R., Hummel, A., Lourenco, J., Aubry, A., Bonnet, I., Caumes, E., Londner, C., Morel, F., Lacombe, K., Lalande, V., Meynard, J.-L., Veziris, N., De Castro, N., Denis, B., Lafaurie, M., Molina, J.-M., Canestri, A., Lassel, L., Pialoux, G., Verdet, C., Nardi, A.-L., Gominet, M., Catherinot, E., Bachir, Marwa, Guglielmetti, Lorenzo, Tunesi, Simone, Billard-Pomares, Typhaine, Chiesi, Sheila, Jaffré, Jérémy, Langris, Hugo, Pourcher, Valérie, Schramm, Frédéric, Lemaître, Nadine, and Robert, Jérôme

Published
2021
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6. Infrastructure for Detector Research and Development towards the International Linear Collider

Author

Aguilar, J., Ambalathankandy, P., Fiutowski, T., Idzik, M., Kulis, Sz., Przyborowski, D., Swientek, K., Bamberger, A., Köhli, M., Lupberger, M., Renz, U., Schumacher, M., Zwerger, Andreas, Calderone, A., Cussans, D. G., Heath, H. F., Mandry, S., Page, R. F., Velthuis, J. J., Attié, D., Calvet, D., Colas, P., Coppolani, X., Degerli, Y., Delagnes, E., Gelin, M., Giomataris, I., Lutz, P., Orsini, F., Rialot, M., Senée, F., Wang, W., Alozy, J., Apostolakis, J., Aspell, P., Bergsma, F., Campbell, M., Formenti, F., Santos, H. Franca, Garcia, E. Garcia, de Gaspari, M., Giudice, P. -A., Grefe, Ch., Grichine, V., Hauschild, M., Ivantchenko, V., Kehrli, A., Kloukinas, K., Linssen, L., Cudie, X. Llopart, Marchioro, A., Musa, L., Ribon, A., Trampitsch, G., Uzhinskiy, V., Anduze, M., Beyer, E., Bonnemaison, A., Boudry, V., Brient, J. -C., Cauchois, A., Clerc, C., Cornat, R., Frotin, M., Gastaldi, F., Jauffret, C., Jeans, D., Karar, A., Mathieu, A., de Freitas, P. Mora, Musat, G., Rougé, A., Ruan, M., Vanel, J. -C., Videau, H., Besson, A., de Masi, G. Claus. R., Doziere, G., Dulinski, W., Goffe, M., Himmi, A., Hu-Guo, Ch., Morel, F., Valin, I., Winter, M., Bonis, J., Callier, S., Cornebise, P., Dulucq, F., Giannelli, M. Faucci, Fleury, J., Guilhem, G., Martin-Chassard, G., de la Taille, Ch., Pöschl, R., Raux, L., Seguin-Moreau, N., Wicek, F., Benyamna, M., Bonnard, J., Cârloganu, C., Fehr, F., Gay, P., Mannen, S., Royer, L., Charpy, A., Da Silva, W., David, J., Dhellot, M., Imbault, D., Ghislain, P., Kapusta, F., Pham, T. Hung, Savoy-Navarro, A., Sefri, R., Dzahini, D., Giraud, J., Grondin, D., Hostachy, J. -Y., Morin, L., Bassignana, D., Pellegrini, G., Lozano, M., Quirion, D., Fernandez, M., Jaramillo, R., Munoz, F. J., Vila, I., Dolezal, Z., Drasal, Z., Kodys, P., Kvasnicka, P., Aplin, S., Bachynska, O., Behnke, T., Behr, J., Dehmelt, K., Engels, J., Gadow, K., Gaede, F., Garutti, E., Göttlicher, P., Gregor, I. -M., Haas, T., Henschel, H., Koetz, U., Lange, W., Libov, V., Lohmann, W., Lutz, B., Mnich, J., Muhl, C., Ohlerich, M., Potylitsina-Kube, N., Prahl, V., Reinecke, M., Roloff, P., Rosemann, Ch., Rubinski, Igor, Schade, P., Schuwalov, S., Sefkow, F., Terwort, M., Volkenborn, R., Kalliopuska, J., Mehtaelae, P., Orava, R., van Remortel, N., Cvach, J., Janata, M., Kvasnicka, J., Marcisovsky, M., Polak, I., Sicho, P., Smolik, J., Vrba, V., Zalesak, J., Bergauer, T., Dragicevic, M., Friedl, M., Haensel, S., Irmler, C., Kiesenhofer, W., Krammer, M., Valentan, M., Piemontese, L., Cotta-Ramusino, A., Bulgheroni, A., Jastrzab, M., Caccia, M., Re, V., Ratti, L., Traversi, G., Dewulf, J. -P., Janssen, X., De Lentdecker, G., Yang, Y., Bryngemark, L., Christiansen, P., Gross, P., Jönsson, L., Ljunggren, M., Lundberg, B., Mjörnmark, U., Oskarsson, A., Richert, T., Stenlund, E., Österman, L., Rummel, S., Richter, R., Andricek, L., Ninkovich, J., Koffmane, Ch., Moser, H. -G., Boisvert, V., Green, B., Green, M. G., Misiejuk, A., Wu, T., Bilevych, Y., Carballo, V. M. Blanco, Chefdeville, M., de Nooij, L., Fransen, M., Hartjes, F., van der Graaf, H., Timmermans, J., Abramowicz, H., Ben-Hamu, Y., Jikhleb, I., Kananov, S., Levy, A., Levy, I., Sadeh, I., Schwartz, R., Stern, A., Goodrick, M. J., Hommels, L. B. A., Ward, R. Shaw. D. R., Daniluk, W., Kielar, E., Kotula, J., Moszczynski, A., Oliwa, K., Pawlik, B., Wierba, W., Zawiejski, L., Bailey, D. S., Kelly, M., Eigen, G., Brezina, Ch., Desch, K., Furletova, J., Kaminski, J., Killenberg, M., Köckner, F., Krautscheid, T., Krüger, H., Reuen, L., Wienemann, P., Zimmermann, R., Zimmermann, S., Bartsch, V., Postranecky, M., Warren, M., Wing, M., Corrin, E., Haas, D., Pohl, M., Diener, R., Fischer, P., Peric, I., Kaukher, A., Schäfer, O., Schröder, H., Wurth, R., and Zarnecki, A. F.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The EUDET-project was launched to create an infrastructure for developing and testing new and advanced detector technologies to be used at a future linear collider. The aim was to make possible experimentation and analysis of data for institutes, which otherwise could not be realized due to lack of resources. The infrastructure comprised an analysis and software network, and instrumentation infrastructures for tracking detectors as well as for calorimetry., Comment: 54 pages, 48 pictures

Published
2012

10. Clinical implications of molecular drug resistance testing for Mycobacterium tuberculosis: a 2023 TBnet/RESIST-TB consensus statement.

Author

Domínguez, J., Boeree, M.J., Cambau, E., Chesov, D., Conradie, F., Cox, V., Dheda, K., Dudnyk, A., Farhat, M.R., Gagneux, S., Grobusch, M.P., Gröschel, M.I., Guglielmetti, L., Kontsevaya, I., Lange, B., Leth, F. van, Lienhardt, C., Mandalakas, A.M., Maurer, F.P., Merker, M., Miotto, P., Molina-Moya, B., Morel, F., Niemann, S., Veziris, N., Whitelaw, A., Horsburgh CR, J.r., Lange, C de, Domínguez, J., Boeree, M.J., Cambau, E., Chesov, D., Conradie, F., Cox, V., Dheda, K., Dudnyk, A., Farhat, M.R., Gagneux, S., Grobusch, M.P., Gröschel, M.I., Guglielmetti, L., Kontsevaya, I., Lange, B., Leth, F. van, Lienhardt, C., Mandalakas, A.M., Maurer, F.P., Merker, M., Miotto, P., Molina-Moya, B., Morel, F., Niemann, S., Veziris, N., Whitelaw, A., Horsburgh CR, J.r., and Lange, C de

Abstract

01 april 2023, Item does not contain fulltext, Drug-resistant tuberculosis is a substantial health-care concern worldwide. Despite culture-based methods being considered the gold standard for drug susceptibility testing, molecular methods provide rapid information about the Mycobacterium tuberculosis mutations associated with resistance to anti-tuberculosis drugs. This consensus document was developed on the basis of a comprehensive literature search, by the TBnet and RESIST-TB networks, about reporting standards for the clinical use of molecular drug susceptibility testing. Review and the search for evidence included hand-searching journals and searching electronic databases. The panel identified studies that linked mutations in genomic regions of M tuberculosis with treatment outcome data. Implementation of molecular testing for the prediction of drug resistance in M tuberculosis is key. Detection of mutations in clinical isolates has implications for the clinical management of patients with multidrug-resistant or rifampicin-resistant tuberculosis, especially in situations when phenotypic drug susceptibility testing is not available. A multidisciplinary team including clinicians, microbiologists, and laboratory scientists reached a consensus on key questions relevant to molecular prediction of drug susceptibility or resistance to M tuberculosis, and their implications for clinical practice. This consensus document should help clinicians in the management of patients with tuberculosis, providing guidance for the design of treatment regimens and optimising outcomes.

Published
2023

14. Optimization of a 65 nm CMOS imaging process for monolithic CMOS sensors for high energy physics

Author

Rinella, G. Aglieri, Andronic, A, Antonelli, M, Baccomi, R, Ballabriga, R, Barbero, M, Barrillon, P, Baudot, J, Becht, P, Benotto, F, Beole, S, Bertolone, G, Besson, A, Bialas, W, Borghello, G, Braach, J, Buckland, M, Bugiel, S, Buschmann, E, Camerini, P, Campbell, M, Carnesecchi, F, Cecconi, L, Charbon, E, Chauhan, A, Colledani, C, Contin, G, Dannheim, D, Dort, K, de Melo, J, Deng, W, de Robertis, G, Di Mauro, A, Martin, A. Dorda, Dorokhov, A, Dorosz, P, Eberwein, G, Bitar, Z. El, Fang, X, Fenigstein, A, Ferrero, C, Fougeron, D, Gajanana, D, Goffe, M, Gonella, L, Grelli, A, Gromov, V, Habib, A, Haim, A, Hansen, K, Hasenbichler, J, Hillemanns, H, Hong, G.H, Hu, C, Isakov, A, Jaaskelainen, K, Junique, A, Kotliarov, A, Kremastiotis, I, Krizek, F, Kluge, A, Kluit, R, Kucharska, G, Kugathasan, T, Kwon, Y, La Rocca, P, Lautner, L, Leitao, P, Lim, B.-H, Loddo, F, Mager, M, Marras, D, Martinengo, P, Masciocchi, S, Mathew, S, Menzel, M.W, Morel, F, Mulyanto, B, Munker, M, Musa, L, Nakamura, M, Pangaud, P, Perciballi, S, Pham, H, Piro, F, Prino, F, Rachevski, S, Rebane, K, Reckleben, C, Reidt, F, Ricci, R, Russo, R, Sanna, I, Sarritzu, V, Savino, U, Schledewitz, D, Sedgwick, I, Senyukov, S, Snoeys, W, Soltveit, H.K, Sonneveld, J, Soudier, J, Stachel, J, Suzuki, M, Svihra, P, Suljic, M, Takahashi, N, Termo, G, Tiltmann, N, Toledano, E, Triffiro, A, Turcato, A, Usai, G, Valin, I, Villani, A, van Beelen, J.B, Vassilev, M.D, Vernieri, C, Vitkovskiy, A, Wu, Y, Yelkenci, A, Yuncu, A, Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut Pluridisciplinaire Hubert Curien (IPHC), and 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)

Subjects
CERN Lab, ALICE, semiconductor detector, imaging, structure, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], ddc:620, optimization, Engineering & allied operations
Abstract

International audience; The long term goal of the CERN Experimental Physics Department R&D on monolithic sensorsis the development of sub-100nm CMOS sensors for high energy physics. The first technologyselected is the TPSCo 65nm CMOS imaging technology. A first submission MLR1 includedseveral small test chips with sensor and circuit prototypes and transistor test structures. One ofthe main questions to be addressed was how to optimize the sensor in the presence of significantin-pixel circuitry. In this paper this optimization is described as well as the experimental resultsfrom the MLR1 run confirming its effectiveness. A second submission investigating wafer-scalestitching has just been completed. This work has been carried out in strong synergy with the ITS3upgrade of the ALICE experiment.

Published
2023

17. First demonstration of in-beam performance of bent Monolithic Active Pixel Sensors

Author

Rinella, G. Aglieri, Agnello, M., Bagno, Alessandro, Agnese, F., Akram, R. S., Alme, J., Anderssen, E., Andreou, D., Antinori, F., Apadula, N., Atkinson, P., Baccomi, R., Badala, A., Balbino, A., Bartels, C., Barthel, R., Baruffaldi, F., Belikov, I, Beole, S., Becht, P., Bhatti, A., Bhopal, M., Bianchi, N., Blidaru, M. B., Boca, G., Bok, J., Bonomi, G., Bonora, M., Borri, M., Borshchov, V, Botta, E., Bruno, G. E., Buckland, M., Bufalino, S., Cai, M., Camerini, P., Cariola, P., Catalano, F., Sanchez, C. Ceballos, Chakaberia, I, Chartier, M., Colamaria, F., Colella, D., Collu, A., Concas, M., Contin, G., Costanza, S., Cui, P., Dainese, A., Dainton, J. B., De Cilladi, L., De Martin, C., De Robertis, G., Deng, W., Di Mauro, A., Ding, Y., Durkac, M., Elia, D., Ersdal, M. R., Faggin, M., Fan, F., Fantoni, A., Fecchio, P., Feliciello, A., Feofilov, G., Ferk, A., Ferencei, J., Fiorenza, G., Flores, A. N., Fragiacomo, E., Gajanana, D., Gal, A., Gao, C., Gargiulo, C., Gianotti, P., Giubilato, P., Grant, A., Greiner, L., Grelli, A., Groettvik, O. S., Grosa, F., C. Guo, Hu, Hannigan, R., Hasenbichler, J. A., Helstrup, H., Hillemanns, H., Hills, C., Hindley, P., Hippolyte, B., Hofman, B., Hong, G. H., Huang, G., Iddon, J. P., Ilyas, H., Imhoff, M. A., Isakov, A., Jadlovska, A., Jadlovska, S., Jadlovsky, J., Jaelani, S., Johnson, T., Junique, A., Kalinak, P., Kalweit, A., Keil, M., Khabanova, Z., Khan, H., Kim, B., Kim, C., Kim, J., Kim, T., Klein, J., Kluge, A., Kobdaj, C., Kotliarov, A., Kralik, I, Krizek, F., Kugathasan, T., Kuhn, C., Kuijer, P. G., Kushpil, S., Kweon, M. J., Kwon, J. Y., Kwon, Y., La Rocca, P., Lakrathok, A., Langoy, R., Larionov, P., Laudi, E., Lazareva, T., Lea, R., Lemmon, R. C., X. L., Li, Lien, J., Lim, B., Lim, S. H., Lindsay, S., Liu, A., Liu, J., Lunardon, M., Luparello, G., Lupi, M., Mager, M., Maire, A., Malik, Q. W., Mandaglio, G., Manzari, V, Mao, Y., Margagliotti, G., V, Markert, C., Marras, D., Martinengo, P., Masciocchi, S., Masera, M., Masoni, A., Mastroserio, A., Matuoka, P. F. T., Mazza, G., Mazzaschi, F., Mazzoni, M. A., Morel, F., Muccifora, V, Mulliri, A., Musa, L., Nesbo, S., Nesterov, D., Norman, J., Park, J., Patra, R. N., Pastore, C., Pei, H., Peng, X., Piano, S., Pinto, C., Pisano, S., Politano, S., Prakasa, E., Prino, F., Protsenko, M., Puccio, M., Rachevski, A., Ramello, L., Rami, F., Ravasenga, I, Rehman, A., Reidt, F., Riggi, F., Roed, K., Rohrich, D., Ronchetti, F., Rosano, A., Rossewij, M. J., Rossi, A., Rui, R., Russo, R., Sadikin, R., Sarritzu, V, Schambach, J., Senyukov, S., Seo, J. J., Shahoyan, R., Shaukat, S., Siddhanta, S., Sitta, M., Snellings, R. J. M., Snoeys, W., Songmoolnak, A., Sonneveld, J., Soramel, F., Suljic, M., Sumowidagdo, S., Sun, D., Sun, X., Tambave, G. J., Tersimonov, G., Tkacik, M., Toppi, M., Trifiro, A., Trogolo, S., Trubnikov, V, Turrisi, R., Tveter, T. S., Tymchuck, I, Ullaland, K., Urioni, M., Usai, G. L., Valle, N., Vandoremalen, L. V. R., Vanat, T., Van Hoorne, J. W., Varga-Kofarago, M., Velure, A., Wang, D., Wang, Y., Wikne, J., Wright, J. R., Xu, R., Yang, P., Yin, Z., Yoo, I-K, Yoon, J. H., Yuan, S., Zaccolo, V, Zhang, E., Zhang, X., Zherebchevskii, V, Zhou, D., Zhu, J., Zhu, Y., Zinovjev, G., Zurlo, N., Aglieri Rinella, G., Agnello, M., Alessandro, B., Agnese, F., Akram, R. S., Alme, J., Anderssen, E., Andreou, D., Antinori, F., Apadula, N., Atkinson, P., Baccomi, R., Badalà, A., Balbino, A., Bartels, C., Barthel, R., Baruffaldi, F., Belikov, I., Beole, S., Becht, P., Bhatti, A., Bhopal, M., Bianchi, N., Blidaru, M. B., Boca, G., Bok, J., Bonomi, G., Borri, M. Bonora M., Borshchov, V., Botta, E., Bruno, G. E., Buckland, M., Bufalino, S., Cai, M., Camerini, P., Cariola, P., Catalano, F., Ceballos Sanchez, C., Chakaberia, I., Chartier, M., Colamaria, F., Colella, D., Collu, A., Concas, M., Contin, G., Costanza, S., Cui, P., Dainese, A., Dainton, J. B., De Cilladi, L., De Martin, C., De Robertis, G., Deng, W., Di Mauro, A., Ding, Y., Durkac, M., Elia, D., Ersdal, M. R., Faggin, M., Fan, F., Fantoni, A., Fecchio, P., Feliciello, A., Feofilov, G., Ferk, A., Ferencei, J., Fiorenza, G., Flores, A. N., Fragiacomo, E., Gajanana, D., Gal, A., Gao, C., Gargiulo, C., Gianotti, P., Giubilato, P., Grant, A., Greiner, L., Grelli, A., Groettvik, O. S., Grosa, F., Guo Hu, C., Hannigan, R., Hasenbichler, J. A., Helstrup, H., Hillemanns, H., Hills, C., Hindley, P., Hippolyte, B., Hofman, B., Hong, G. H., Huang, G., Iddon, J. P., Ilyas, H., Imhoff, M. A., Isakov, A., Jadlovska, A., Jadlovska, S., Jadlovsky, J., Jaelani, S., Johnson, T., Junique, A., Kalinak, P., Kalweit, A., Keil, M., Khabanova, Z., Khan, H., Kim, B., Kim, C., Kim, J., Kim, T., Klein, J., Kluge, A., Kobdaj, C., Kotliarov, A., Králik, I., Krizek, F., Kugathasan, T., Kuhn, C., Kuijer, P. G., Kushpil, S., Kweon, M. J., Kwon, J. Y., Kwon, Y., La Rocca, P., Lakrathok, A., Langoy, R., Larionov, P., Laudi, E., Lazareva, T., Lea, R., Lemmon, R. C., Li, X. L., Lien, J., Lim, B., Lim, S. H., Lindsay, S., Liu, A., Liu, J., Lunardon, M., Luparello, G., Lupi, M., Mager, M., Maire, A., Malik, Q. W., Mandaglio, G., Manzari, V., Mao, Y., Margagliotti, G. V., Markert, C., Marras, D., Martinengo, P., Masciocchi, S., Masera, M., Masoni, A., Mastroserio, A., Matuoka, P. F. T., Mazza, G., Mazzaschi, F., Mazzoni, M. A., Morel, F, Muccifora, V., Mulliri, A., Musa, L., Nesbo, S. V., Nesterov, D., Norman, J., Park, J., Patra, R. N., Pastore, C., Pei, H., Peng, X., Piano, S., Pinto, C., Pisano, S., Politano, S., Prakasa, E., Prino, F., Protsenko, M., Puccio, M., Rachevski, A., Ramello, L., Rami, F., Ravasenga, I., Rehman, A., Reidt, F., Riggi, F., Røed, K., Röhrich, D., Ronchetti, F., Rosano, A., Rossewij, M. J., Rossi, A., Rui, R., Russo, R., Sadikin, R., Sarritzu, V., Schambach, J., Senyukov, S., Seo, J. J., Shahoyan, R., Shaukat, S., Siddhanta, S., Sitta, M., Snellings, R. J. M., Snoeys, W., Songmoolnak, A., Sonneveld, J., Soramel, F., Suljic, M., Sumowidagdo, S., Sun, D., Sun, X., Tambave, G. J., Tersimonov, G., Tkacik, M., Toppi, M., Trifiró, A., Trogolo, S., Trubnikov, V., Turrisi, R., Tveter, T. S., Tymchuck, I., Ullaland, K., Urioni, M., Usai, G. L., Valle, N., van Doremalen, L. V. R., Vanat, T., Van Hoorne, J. W., Varga-Kofarago, M., Velure, A., Wang, D., Wang, Y., Wikne, J., Wright, J. R., Xu, R., Yang, P., Yin, Z., Yoo, I. -K., Yoon, J. H., Yuan, S., Zaccolo, V., Zhang, E., Zhang, X., Zherebchevskii, V., Zhou, D., Zhu, J. Zhu Y., Zinovjev, G., Zurlo, N., Institut Pluridisciplinaire Hubert Curien (IPHC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), ALICE ITS project, and Nuclear Physics Group, STFC Daresbury Laboratory, Daresbury, United Kingdom

Subjects
Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Bent, Bent sensors, Monolithic Active Pixel Sensors (MAPS), Solid state detectors, vertex detector, detector: geometry, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), fabrication, sensors, semiconductor detector: pixel, efficiency, Bent sensor, mechanical engineering, electron: irradiation, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Detectors and Experimental Techniques, Instrumentation, physics.ins-det, performance
Abstract

A novel approach for designing the next generation of vertex detectors foresees to employ wafer-scale sensors that can be bent to truly cylindrical geometries after thinning them to thicknesses of 20-40$\mu$m. To solidify this concept, the feasibility of operating bent MAPS was demonstrated using 1.5$\times$3cm ALPIDE chips. Already with their thickness of 50$\mu$m, they can be successfully bent to radii of about 2cm without any signs of mechanical or electrical damage. During a subsequent characterisation using a 5.4 GeV electron beam, it was further confirmed that they preserve their full electrical functionality as well as particle detection performance. In this article, the bending procedure and the setup used for characterisation are detailed. Furthermore, the analysis of the beam test, including the measurement of the detection efficiency as a function of beam position and local inclination angle, is discussed. The results show that the sensors maintain their excellent performance after bending to radii of 2cm, with detection efficiencies above 99.9% at typical operating conditions, paving the way towards a new class of detectors with unprecedented low material budget and ideal geometrical properties. A novel approach for designing the next generation of vertex detectors foresees to employ wafer-scale sensors that can be bent to truly cylindrical geometries after thinning them to thicknesses of 20–40 μm. To solidify this concept, the feasibility of operating bent MAPS was demonstrated using 1.5cm×3cm ALPIDE chips. Already with their thickness of 50µm, they can be successfully bent to radii of about 2cm without any signs of mechanical or electrical damage. During a subsequent characterisation using a 5.4GeV electron beam, it was further confirmed that they preserve their full electrical functionality as well as particle detection performance. In this article, the bending procedure and the setup used for characterisation are detailed. Furthermore, the analysis of the beam test, including the measurement of the detection efficiency as a function of beam position and local inclination angle, is discussed. The results show that the sensors maintain their excellent performance after bending to radii of 2cm, with detection efficiencies above 99.9% at typical operating conditions, paving the way towards a new class of detectors with unprecedented low material budget and ideal geometrical properties.

Published
2022

31. Isoniazid-monoresistant tuberculosis in France: Risk factors, treatment outcomes and adverse events

Author

Bachir, Marwa, primary, Guglielmetti, Lorenzo, additional, Tunesi, Simone, additional, Billard-Pomares, Typhaine, additional, Chiesi, Sheila, additional, Jaffré, Jérémy, additional, Langris, Hugo, additional, Pourcher, Valérie, additional, Schramm, Frédéric, additional, Lemaître, Nadine, additional, Robert, Jérôme, additional, Bouchaud, O., additional, Billard-Pomares, T., additional, Carbonnelle, E., additional, Mechaï, F., additional, Nunes, H., additional, Pellan, M., additional, Morin, A.-S., additional, Dumesnil, C., additional, Dumoulin, J., additional, Roux, A.-L., additional, Jachym, M., additional, le Du, D., additional, Marigot-Outtandy, D., additional, Abgrall, S., additional, Chambrin, V., additional, Guillet, C., additional, Fantin, B., additional, Galy, A., additional, Decousser, J.-W., additional, Lelièvre, J.D., additional, Gallien, S., additional, Nebbad-Lechani, B., additional, Deconinck, L., additional, Bulifon, S., additional, Fortineau, N., additional, Wyplosz, B., additional, Cohen, F., additional, Lemaitre, N., additional, Crestani, B., additional, Grall, N., additional, Pierre-Audigier, C., additional, Rioux, C., additional, Yazdanpanah, Y., additional, Le Jeunne, C., additional, Morand, P., additional, Roche, N., additional, Pavie, J., additional, Loulergue, P., additional, Delcey, V., additional, Lecorché, E., additional, Munier, A.-L., additional, Mougari, F., additional, Sellier, P., additional, Bille, E., additional, Ferroni, A., additional, Guéry, R., additional, Hummel, A., additional, Lourenco, J., additional, Aubry, A., additional, Bonnet, I., additional, Caumes, E., additional, Londner, C., additional, Morel, F., additional, Lacombe, K., additional, Lalande, V., additional, Meynard, J.-L., additional, Veziris, N., additional, De Castro, N., additional, Denis, B., additional, Lafaurie, M., additional, Molina, J.-M., additional, Canestri, A., additional, Lassel, L., additional, Pialoux, G., additional, Verdet, C., additional, Nardi, A.-L., additional, Gominet, M., additional, and Catherinot, E., additional

Published
2021
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32. Case Report: Acquired Disseminated BCG in the Context of a Delayed Immune Reconstitution After Hematological Malignancy: Acquired Disseminated BCG in the Context of a Delayed Immune Reconstitution After Hematological Malignancy

Author

Gies, V. (Vincent), Dieudonné, Y. (Yannick), Morel, F. (Florence), Sougakoff, W. (Wladimir), Carapito, R. (Raphaël), Martin, A. (Aurélie), Weingertner, N. (Noëlle), Jacquel, L. (Léa), Hubele, F. (Fabrice), Kuhnert, C. (Cornélia), Jung, S. (Sophie), Schramm, F. (Frederic), Boyer, P. (Pierre), Hansmann, Y. (Yves), Danion, F. (François), Korganow, A. (Anne-Sophie) S. (S), and Guffroy, A. (Aurelien)

Subjects
Sciences du Vivant [q-bio]/Médecine humaine et pathologie, complex mixtures
Abstract

Context Disseminated infections due to Mycobacterium bovis Bacillus Calmette-Guerin (BCG) are unusual and occur mostly in patients with inborn error of immunity (IEI) or acquired immunodeficiency. However, cases of secondary BCGosis due to intravesical BCG instillation have been described. Herein, we present a case of severe BCGosis occurring in an unusual situation. C ase Description We report one case of severe disseminated BCG disease occurring after hematological malignancy in a 48-year-old man without BCG instillation and previously vaccinated in infancy with no complication. Laboratory investigations demonstrated that he was not affected by any known or candidate gene of IEI or intrinsic cellular defect involving IFN gamma pathway. Whole genome sequencing of the BCG strain showed that it was most closely related to the M. bovis BCG Tice strain, suggesting an unexpected relationship between the secondary immunodeficiency of the patient and the acquired BCG infection.& nbsp; Conclusion This case highlights the fact that, in addition to the IEI, physicians, as well as microbiologists and pharmacists should be aware of possible acquired disseminated BCG disease in secondary immunocompromised patients treated in centers that administrate BCG for bladder cancers.

Published
2021

33. Case study of dc-MMC interconnecting two HVDC lines with different grid topologies

Author

Daniel Gomez A., Shinoda, K., Paez, J. D., Morel, F., Dworakowski, P., Cheah-Mane, M., Gomis-Bellmunt, O., and Morel, Florent

Subjects
dc-dc HVDC converters, [SPI.ELEC] Engineering Sciences [physics]/Electromagnetism, grid topologies, dc-MMC, modular multilevel converters, multi-terminal dc grid, [SPI.TRON] Engineering Sciences [physics]/Electronics, [SPI.NRJ] Engineering Sciences [physics]/Electric power
Abstract

Dc-dc converters for high voltage direct current (HVDC) applications are interesting devices for the development of multi-terminal and dc grid schemes. They can adapt the differences between the dc systems (voltage level, technology and/or line topology) and provide additional protection, controllability and redundancy services. This paper presents a case study of a non-isolated dc-dc converter interconnecting the NordLink and Cobra cable projects. This interconnection requires a dc-dc converter to adapt the dc voltage and the line topology (the first project being a ±525 kV rigid bipole while the second is a ±320 kV symmetric monopole). The case study has been modelled in Matlab/Simulink and several scenarios are simulated. A first set of 8 simulations change the power flow directions verifying the adequate behavior of the dc-dc converter and HVDC links. Based on the previous simulations, additional 16 cases are simulated to verify the system behavior during faults. Two faults are proposed: a pole-to-ground on the positive pole of the rigid bipole line and another on the positive pole of the monopole. It is shown that the dc-dc converter can interconnect two existing lines without changing their initial control strategy. For the normal operation simulations, a fast power variation through the dc-dc converter is tested proving that the line protections are not triggered. The power perturbations created by the dc-dc converter are small enough to keep the system under normal operation conditions. During the fault simulations, the dc-dc converter is able to isolate the healthy side from the fault disturbance (firewall capability). The healthy dc side observes a power disturbance (loss of power flow through the dc-dc converter) without triggering the protections, allowing the continuous power transmission and regaining steady state conditions. The dc-dc converter employs full bridge submodules to be able to block the fault currents, without the presence of dc circuit breakers.

Published
2021

45. Voevodsky's proof of Milnor's conjecture

Author

Morel, F.

Subjects
Proof theory -- Research, Mathematics
Abstract

We give an overview of Voevodsky's recent proof of Milnor's conjecture on the mod 2 Galois cohomology of fields of characteristic [not equal] 2.

Published
1998

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