1,036 results on '"Fabris L"'
Search Results
52. COHERENT Collaboration data release from the first observation of coherent elastic neutrino-nucleus scattering
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COHERENT Collaboration, Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Blackston, M. A., Bolozdynya, A., Brown, A., Burenkov, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Daughhetee, J., Dean, D. J., Coello, M. del Valle, Detwiler, J., D'Onofrio, M., Eberhardt, A., Efremenko, Y., Elliott, S. R., Etenko, A., Fabris, L., Febbraro, M., Fields, N., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaemingk, M., Kaufman, L. J., Klein, S. R., Khromov, A., Ki, S., Konovalov, A., Kovalenko, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Melikyan, Y., Miller, K., Moreno, H., Mueller, P. E., Naumov, P., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Radford, D. C., Rapp, R., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Salvat, D. J., Scholberg, K., Scholz, B., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zderic, A., and Zettlemoyer, J.
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Nuclear Experiment ,High Energy Physics - Experiment - Abstract
This release includes data and information necessary to perform independent analyses of the COHERENT result presented in Akimov et al., arXiv:1708.01294 [nucl-ex]. Data is shared in a binned, text-based format, including both "signal" and "background" regions, so that counts and associated uncertainties can be quantitatively calculated for the purpose of separate analyses. This document describes the included information and its format, offering some guidance on use of the data. Accompanying code examples show basic interaction with the data using Python.
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- 2018
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53. COHERENT 2018 at the Spallation Neutron Source
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Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Blackston, M. A., Bolozdynya, A., Brown, A., Burenkov, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Daughhetee, J., Dean, D. J., Coello, M. del Valle, Detwiler, J. A., D'Onofrio, M., Efremenko, Y., Elliott, S. R., Erkela, E., Etenko, A., Fabris, L., Febbraro, M., Fields, N., Fox, W., Galindo-Uribarri, A., Green, M. P., Heath, M. R., Hedges, S., Iverson, E. B., Kaemingk, M., Kaufman, L. J., Klein, S. R., Khromov, A., Ki, S., Konovalov, A., Kovalenko, A., Kumpan, A., Li, L., Lu, W., Mann, K., Melikyan, Y., Markoff, D. M., Moreno, H., Mueller, P. E., Naumov, P., Newby, J., Parno, D. S., Penttila, S., Perumpilly, G., Radford, D., Rapp, R., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Salvat, D. J., Scholberg, K., Scholz, B., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Yoo, J., Yu, C. -H., and Zettlemoyer, J.
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Physics - Instrumentation and Detectors ,High Energy Physics - Experiment ,Nuclear Experiment - Abstract
The primary goal of the COHERENT collaboration is to measure and study coherent elastic neutrino-nucleus scattering (CEvNS) using the high-power, few-tens-of-MeV, pulsed source of neutrinos provided by the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory (ORNL). The COHERENT collaboration reported the first detection of CEvNS [Akimov:2017ade] using a CsI[Na] detector. At present the collaboration is deploying four detector technologies: a CsI[Na] scintillating crystal, p-type point-contact germanium detectors, single-phase liquid argon, and NaI[Tl] crystals. All detectors are located in the neutron-quiet basement of the SNS target building at distances 20-30 m from the SNS neutrino source. The simultaneous measurement in all four COHERENT detector subsystems will test the $N^2$ dependence of the cross section and search for new physics. In addition, COHERENT is measuring neutrino-induced neutrons from charged- and neutral-current neutrino interactions on nuclei in shielding materials, which represent a non-negligible background for CEvNS as well as being of intrinsic interest. The Collaboration is planning as well to look for charged-current interactions of relevance to supernova and weak-interaction physics. This document describes concisely the COHERENT physics motivations, sensitivity, and next plans for measurements at the SNS to be accomplished on a few-year timescale., Comment: 22 pages, 14 figures
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- 2018
54. Sensitivity and discovery potential of the proposed nEXO experiment to neutrinoless double beta decay
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nEXO Collaboration, Albert, J. B., Anton, G., Arnquist, I. J., Badhrees, I., Barbeau, P. S., Beck, D., Belov, V., Bourque, F., Brodsky, J. P., Brown, E., Brunner, T., Burenkov, A., Cao, G. F., Cao, L., Cen, W. R., Chambers, C., Charlebois, S. A., Chiu, M., Cleveland, B., Coon, M., Côté, M., Craycraft, A., Cree, W., Dalmasson, J., Daniels, T., Daugherty, S. J., Daughhetee, J., DeVoe, R., Delaquis, S., Der Mesrobian-Kabakian, A., Didberidze, T., Dilling, J., Ding, Y. Y., Dolinski, M. J., Dragone, A., Fabris, L., Fairbank, W., Farine, J., Feyzbakhsh, S., Fontaine, R., Fudenberg, D., Giacomini, G., Gornea, R., Graham, K., Gratta, G., Hansen, E. V., Harris, D., Hasan, M., Heffner, M., Hoppe, E. W., Hößl, J., House, A., Hufschmidt, P., Hughes, M., Ito, Y., Iverson, A., Jamil, A., Jewell, M. J., Jiang, X. S., Johnson, T. N., Johnston, S., Karelin, A., Kaufman, L. J., Killick, R., Koffas, T., Kravitz, S., Krücken, R., Kuchenkov, A., Kumar, K. S., Lan, Y., Leonard, D. S., Li, G., Li, S., Li, Z., Licciardi, C., Lin, Y. H., MacLellan, R., Michel, T., Mong, B., Moore, D. C., Murray, K., Newby, R. J., Ning, Z., Njoya, O., Nolet, F., Odgers, K., Odian, A., Oriunno, M., Orrell, J. L., Ortega, G. S., Ostrovskiy, I., Overman, C. T., Parent, S., Piepke, A., Pocar, A., Pratte, J. -F., Qiu, D., Radeka, V., Raguzin, E., Rao, T., Rescia, S., Retière, F., Robinson, A., Rossignol, T., Rowson, P. C., Roy, N., Saldanha, R., Sangiorgio, S., Schmidt, S., Schneider, J., Schubert, A., Sinclair, D., VIII, K. Skarpaas, Soma, A. K., St-Hilaire, G., Stekhanov, V., Stiegler, T., Sun, X. L., Tarka, M., Todd, J., Tolba, T., Tsang, R., Tsang, T., Vachon, F., Veeraraghavan, V., Visser, G., Vogel, P., Vuilleumier, J. -L., Wagenpfeil, M., Wang, Q., Weber, M., Wei, W., Wen, L. J., Wichoski, U., Wrede, G., Wu, S. X., Wu, W. H., Yang, L., Yen, Y. -R., Zeldovich, O., Zettlemoyer, J., Zhang, X., Zhao, J., Zhou, Y., and Ziegler, T.
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Nuclear Experiment ,Physics - Instrumentation and Detectors - Abstract
The next-generation Enriched Xenon Observatory (nEXO) is a proposed experiment to search for neutrinoless double beta ($0\nu\beta\beta$) decay in $^{136}$Xe with a target half-life sensitivity of approximately $10^{28}$ years using $5\times10^3$ kg of isotopically enriched liquid-xenon in a time projection chamber. This improvement of two orders of magnitude in sensitivity over current limits is obtained by a significant increase of the $^{136}$Xe mass, the monolithic and homogeneous configuration of the active medium, and the multi-parameter measurements of the interactions enabled by the time projection chamber. The detector concept and anticipated performance are presented based upon demonstrated realizable background rates., Comment: v2 as published
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- 2017
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55. Characterization of an Ionization Readout Tile for nEXO
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nEXO Collaboration, Jewell, M., Schubert, A., Cen, W. R., Dalmasson, J., DeVoe, R., Fabris, L., Gratta, G., Jamil, A., Li, G., Odian, A., Patel, M., Pocar, A., Qiu, D., Wang, Q., Wen, L. J., Albert, J. B., Anton, G., Arnquist, I. J., Badhrees, I., Barbeau, P., Beck, D., Belov, V., Bourque, F., Brodsky, J. P., Brown, E., Brunner, T., Burenkov, A., Cao, G. F., Cao, L., Chambers, C., Charlebois, S. A., Chiu, M., Cleveland, B., Coon, M., Craycraft, A., Cree, W., Côté, M., Daniels, T., Daugherty, S. J., Daughhetee, J., Delaquis, S., Der Mesrobian-Kabakian, A., Didberidze, T., Dilling, J., Ding, Y. Y., Dolinski, M. J., Dragone, A., Fairbank, W., Farine, J., Feyzbakhsh, S., Fontaine, R., Fudenberg, D., Giacomini, G., Gornea, R., Hansen, E. V., Harris, D., Hasan, M., Heffner, M., Hoppe, E. W., House, A., Hufschmidt, P., Hughes, M., Hößl, J., Ito, Y., Iverson, A., Jiang, X. S., Johnston, S., Karelin, A., Kaufman, L. J., Koffas, T., Kravitz, S., Krücken, R., Kuchenkov, A., Kumar, K. S., Lan, Y., Leonard, D. S., Li, S., Li, Z., Licciardi, C., Lin, Y. H., MacLellan, R., Michel, T., Mong, B., Moore, D., Murray, K., Newby, R. J., Ning, Z., Njoya, O., Nolet, F., Odgers, K., Oriunno, M., Orrell, J. L., Ostrovskiy, I., Overman, C. T., Ortega, G. S., Parent, S., Piepke, A., Pratte, J. -F., Radeka, V., Raguzin, E., Rao, T., Rescia, S., Retiere, F., Robinson, A., Rossignol, T., Rowson, P. C., Roy, N., Saldanha, R., Sangiorgio, S., Schmidt, S., Schneider, J., Sinclair, D., Skarpaas, K., Soma, A. K., St-Hilaire, G., Stekhanov, V., Stiegler, T., Sun, X. L., Tarka, M., Todd, J., Tolba, T., Tsang, R., Tsang, T., Vachon, F., Veeraraghavan, V., Visser, G., Vuilleumier, J. -L., Wagenpfeil, M., Weber, M., Wei, W., Wichoski, U., Wrede, G., Wu, S. X., Wu, W. H., Xuan, Z., Yang, L., Yayun, D., Yen, Y. -R., Zeldovich, O., Zhang, X., Zhao, J., Zhe, N., Zhou, Y., and Ziegler, T.
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Physics - Instrumentation and Detectors - Abstract
A new design for the anode of a time projection chamber, consisting of a charge-detecting "tile", is investigated for use in large scale liquid xenon detectors. The tile is produced by depositing 60 orthogonal metal charge-collecting strips, 3~mm wide, on a 10~\si{\cm} $\times$ 10~\si{\cm} fused-silica wafer. These charge tiles may be employed by large detectors, such as the proposed tonne-scale nEXO experiment to search for neutrinoless double-beta decay. Modular by design, an array of tiles can cover a sizable area. The width of each strip is small compared to the size of the tile, so a Frisch grid is not required. A grid-less, tiled anode design is beneficial for an experiment such as nEXO, where a wire tensioning support structure and Frisch grid might contribute radioactive backgrounds and would have to be designed to accommodate cycling to cryogenic temperatures. The segmented anode also reduces some degeneracies in signal reconstruction that arise in large-area crossed-wire time projection chambers. A prototype tile was tested in a cell containing liquid xenon. Very good agreement is achieved between the measured ionization spectrum of a $^{207}$Bi source and simulations that include the microphysics of recombination in xenon and a detailed modeling of the electrostatic field of the detector. An energy resolution $\sigma/E$=5.5\% is observed at 570~\si{keV}, comparable to the best intrinsic ionization-only resolution reported in literature for liquid xenon at 936~V/\si{cm}., Comment: 18 pages, 13 figures, as published
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- 2017
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56. The GAPS Experiment to Search for Dark Matter using Low-energy Antimatter
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Ong, R. A., Aramaki, T., Bird, R., Boezio, M., Boggs, S. E., Carr, R., Craig, W. W., von Doetinchem, P., Fabris, L., Gahbauer, F., Gerrity, C., Fuke, H., Hailey, C. J., Kato, C., Kawachi, A., Kozai, M., Mognet, S. I., Munakata, K., Okazaki, S., Osteria, G., Perez, K., Re, V., Rogers, F., Saffold, N., Shimizu, Y., Yoshida, A., Yoshida, T., Zampa, G., and Zweerink, J.
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Astrophysics - Instrumentation and Methods for Astrophysics ,Astrophysics - High Energy Astrophysical Phenomena ,High Energy Physics - Experiment - Abstract
The GAPS experiment is designed to carry out a sensitive dark matter search by measuring low-energy cosmic ray antideuterons and antiprotons. GAPS will provide a new avenue to access a wide range of dark matter models and masses that is complementary to direct detection techniques, collider experiments and other indirect detection techniques. Well-motivated theories beyond the Standard Model contain viable dark matter candidates which could lead to a detectable signal of antideuterons resulting from the annihilation or decay of dark matter particles. The dark matter contribution to the antideuteron flux is believed to be especially large at low energies (E < 1 GeV), where the predicted flux from conventional astrophysical sources (i.e. from secondary interactions of cosmic rays) is very low. The GAPS low-energy antiproton search will provide stringent constraints on less than 10 GeV dark matter, will provide the best limits on primordial black hole evaporation on Galactic length scales, and will explore new discovery space in cosmic ray physics. Unlike other antimatter search experiments such as BESS and AMS that use magnetic spectrometers, GAPS detects antideuterons and antiprotons using an exotic atom technique. This technique, and its unique event topology, will give GAPS a nearly background-free detection capability that is critical in a rare-event search. GAPS is designed to carry out its science program using long-duration balloon flights in Antarctica. A prototype instrument was successfully flown from Taiki, Japan in 2012. GAPS has now been approved by NASA to proceed towards the full science instrument, with the possibility of a first long-duration balloon flight in late 2020. Here we motivate low-energy cosmic ray antimatter searches and discuss the current status of the GAPS experiment and the design of the payload., Comment: 8 pags, 3 figures, Proc. 35th International Cosmic Ray Conference (ICRC 2017), Busan, Korea
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- 2017
57. Imaging individual barium atoms in solid xenon for barium tagging in nEXO
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Chambers, C, Walton, T, Fairbank, D, Craycraft, A, Yahne, DR, Todd, J, Iverson, A, Fairbank, W, Alamare, A, Albert, JB, Anton, G, Arnquist, IJ, Badhrees, I, Barbeau, PS, Beck, D, Belov, V, Bhatta, T, Bourque, F, Brodsky, JP, Brown, E, Brunner, T, Burenkov, A, Cao, GF, Cao, L, Cen, WR, Charlebois, SA, Chiu, M, Cleveland, B, Coon, M, Cree, W, Côté, M, Dalmasson, J, Daniels, T, Darroch, L, Daugherty, SJ, Daughhetee, J, Delaquis, S, Mesrobian-Kabakian, A Der, DeVoe, R, Dilling, J, Ding, YY, Dolinski, MJ, Dragone, A, Echevers, J, Fabris, L, Farine, J, Feyzbakhsh, S, Fontaine, R, Fudenberg, D, Giacomini, G, Gornea, R, Gratta, G, Hansen, EV, Heffner, M, Hoppe, EW, Hößl, J, House, A, Hufschmidt, P, Hughes, M, Ito, Y, Jamil, A, Jessiman, C, Jewell, MJ, Jiang, XS, Karelin, A, Kaufman, LJ, Kodroff, D, Koffas, T, Kravitz, S, Krücken, R, Kuchenkov, A, Kumar, KS, Lan, Y, Larson, A, Leonard, DS, Li, G, Li, S, Li, Z, Licciardi, C, Lin, YH, Lv, P, MacLellan, R, Michel, T, Mong, B, Moore, DC, Murray, K, Newby, RJ, Ning, Z, Njoya, O, Nolet, F, Nusair, O, Odgers, K, Odian, A, Oriunno, M, Orrell, JL, Ortega, GS, Ostrovskiy, I, Overman, CT, Parent, S, and Piepke, A
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physics.ins-det ,nucl-ex ,Nuclear and Plasma Physics ,Particle and High Energy Physics ,Physical Sciences ,nEXO Collaboration ,General Science & Technology - Abstract
The search for neutrinoless double beta decay probes the fundamentalproperties of neutrinos, including whether or not the neutrino and antineutrinoare distinct. Double beta detectors are large and expensive, so backgroundreduction is essential for extracting the highest sensitivity. Theidentification, or 'tagging', of the $^{136}$Ba daughter atom from double betadecay of $^{136}$Xe provides a technique for eliminating backgrounds in thenEXO neutrinoless double beta decay experiment. The tagging scheme studied inthis work utilizes a cryogenic probe to trap the barium atom in solid xenon,where the barium atom is tagged via fluorescence imaging in the solid xenonmatrix. Here we demonstrate imaging and counting of individual atoms of bariumin solid xenon by scanning a focused laser across a solid xenon matrixdeposited on a sapphire window. When the laser sits on an individual atom, thefluorescence persists for $\sim$30~s before dropping abruptly to the backgroundlevel, a clear confirmation of one-atom imaging. No barium fluorescencepersists following evaporation of a barium deposit to a limit of $\leq$0.16\%.This is the first time that single atoms have been imaged in solid nobleelement. It establishes the basic principle of a barium tagging technique fornEXO.
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- 2019
58. Observation of Coherent Elastic Neutrino-Nucleus Scattering
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Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., and Zderic, A. M.
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Nuclear Experiment ,High Energy Physics - Experiment ,High Energy Physics - Phenomenology ,Nuclear Theory - Abstract
The coherent elastic scattering of neutrinos off nuclei has eluded detection for four decades, even though its predicted cross-section is the largest by far of all low-energy neutrino couplings. This mode of interaction provides new opportunities to study neutrino properties, and leads to a miniaturization of detector size, with potential technological applications. We observe this process at a 6.7-sigma confidence level, using a low-background, 14.6-kg CsI[Na] scintillator exposed to the neutrino emissions from the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory. Characteristic signatures in energy and time, predicted by the Standard Model for this process, are observed in high signal-to-background conditions. Improved constraints on non-standard neutrino interactions with quarks are derived from this initial dataset.
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- 2017
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59. CT scan structured report for the study of abdominal wall defects: a fast, easy and practical tool at the service of both surgeons and radiologist
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Carrara, A., Nava, F. L., Costa, M., Fabris, L., Zuolo, M., Pellecchia, L., Moscatelli, P., Dorna, A., Calabrese, E., Ferrari, M., Paganelli, F., Recla, M., and Tirone, G.
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- 2021
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60. Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
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Saffold, N., Aramaki, T., Bird, R., Boezio, M., Boggs, S.E., Bonvicini, V., Campana, D., Craig, W.W., von Doetinchem, P., Everson, E., Fabris, L., Fuke, H., Gahbauer, F., Garcia, I., Gerrity, C., Hailey, C.J., Hayashi, T., Kato, C., Kawachi, A., Kobayashi, S., Kozai, M., Lenni, A., Lowell, A., Manghisoni, M., Marcelli, N., Mognet, S.I., Munakata, K., Munini, R., Nakagami, Y., Olson, J., Ong, R.A., Osteria, G., Perez, K., Pope, I., Quinn, S., Re, V., Reed, M., Riceputi, E., Roach, B., Rogers, F., Ryan, J.L., Scotti, V., Shimizu, Y., Sonzogni, M., Sparvoli, R., Stoessl, A., Tiberio, A., Vannuccini, E., Wada, T., Xiao, M., Yamatani, M., Yoshida, A., Yoshida, T., Zampa, G., and Zweerink, J.
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- 2021
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61. Prospective observational study of abdominal wall reconstruction with THT technique in primary midline defects with diastasis recti: clinical and functional outcomes in 110 consecutive patients
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Carrara, A., Catarci, M., Fabris, L., Zuolo, M., Pellecchia, L., Moscatelli, P., Dorna, A., Motter, M., Pertile, R., and Tirone, G.
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- 2021
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62. Event reconstruction in a liquid xenon Time Projection Chamber with an optically-open field cage
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Stiegler, T., Sangiorgio, S., Brodsky, J.P., Heffner, M., Kharusi, S. Al, Anton, G., Arnquist, I.J., Badhrees, I., Barbeau, P.S., Beck, D., Belov, V., Bhatta, T., Bolotnikov, A., Breur, P.A., Brown, E., Brunner, T., Caden, E., Cao, G.F., Cao, L., Chambers, C., Chana, B., Charlebois, S.A., Chiu, M., Cleveland, B., Coon, M., Craycraft, A., Dalmasson, J., Daniels, T., Darroch, L., De St. Croix, A., Mesrobian-Kabakian, A. Der, Deslandes, K., DeVoe, R., Di Vacri, M.L., Dilling, J., Ding, Y.Y., Dolinski, M.J., Dragone, A., Echevers, J., Edaltafar, F., Elbeltagi, M., Fabris, L., Fairbank, D., Fairbank, W., Farine, J., Ferrara, S., Feyzbakhsh, S., Gallina, G., Gautam, P., Giacomini, G., Goeldi, D., Gornea, R., Gratta, G., Hansen, E.V., Hoppe, E.W., Hößl, J., House, A., Hughes, M., Iverson, A., Jamil, A., Jewell, M.J., Jiang, X.S., Karelin, A., Kaufman, L.J., Koffas, T., Krücken, R., Kuchenkov, A., Kumar, K.S., Lan, Y., Larson, A., Leach, K.G., Lenardo, B.G., Leonard, D.S., Li, G., Li, S., Li, Z., Licciardi, C., Lv, P., MacLellan, R., Massacret, N., McElroy, T., Medina-Peregrina, M., Michel, T., Mong, B., Moore, D.C., Murray, K., Nakarmi, P., Natzke, C.R., Newby, R.J., Ni, K., Ning, Z., Njoya, O., Nolet, F., Nusair, O., Odgers, K., Odian, A., Oriunno, M., Orrell, J.L., Ortega, G.S., Ostrovskiy, I., Overman, C.T., Parent, S., Piepke, A., Pocar, A., Pratte, J.-F., Radeka, V., Raguzin, E., Rasiwala, H., Rescia, S., Retière, F., Richman, M., Robinson, A., Rossignol, T., Rowson, P.C., Roy, N., Saldanha, R., Skarpaas, K., VIII, Soma, A.K., St-Hilaire, G., Stekhanov, V., Sun, X.L., Tarka, M., Thibado, S., Tidball, A., Todd, J., Totev, T.I., Tsang, R., Tsang, T., Vachon, F., Veeraraghavan, V., Viel, S., Visser, G., Vivo-Vilches, C., Vuilleumier, J.-L., Wagenpfeil, M., Wager, T., Walent, M., Wang, Q., Wei, W., Wen, L.J., Wichoski, U., Worcester, M., Wu, S.X., Wu, W.H., Wu, X., Xia, Q., Yang, H., Yang, L., Zeldovich, O., Zhao, J., Zhou, Y., and Ziegler, T.
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- 2021
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63. Observation of coherent elastic neutrino-nucleus scattering
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Akimov, D, Albert, JB, An, P, Awe, C, Barbeau, PS, Becker, B, Belov, V, Brown, A, Bolozdynya, A, Cabrera-Palmer, B, Cervantes, M, Collar, JI, Cooper, RJ, Cooper, RL, Cuesta, C, Dean, DJ, Detwiler, JA, Eberhardt, A, Efremenko, Y, Elliott, SR, Erkela, EM, Fabris, L, Febbraro, M, Fields, NE, Fox, W, Fu, Z, Galindo-Uribarri, A, Green, MP, Hai, M, Heath, MR, Hedges, S, Hornback, D, Hossbach, TW, Iverson, EB, Kaufman, LJ, Ki, S, Klein, SR, Khromov, A, Konovalov, A, Kremer, M, Kumpan, A, Leadbetter, C, Li, L, Lu, W, Mann, K, Markoff, DM, Miller, K, Moreno, H, Mueller, PE, Newby, J, Orrell, JL, Overman, CT, Parno, DS, Penttila, S, Perumpilly, G, Ray, H, Raybern, J, Reyna, D, Rich, GC, Rimal, D, Rudik, D, Scholberg, K, Scholz, BJ, Sinev, G, Snow, WM, Sosnovtsev, V, Shakirov, A, Suchyta, S, Suh, B, Tayloe, R, Thornton, RT, Tolstukhin, I, Vanderwerp, J, Varner, RL, Virtue, CJ, Wan, Z, Yoo, J, Yu, C-H, Zawada, A, Zettlemoyer, J, Zderic, AM, and Collaboration, COHERENT
- Subjects
Nuclear and Plasma Physics ,Particle and High Energy Physics ,Physical Sciences ,COHERENT Collaboration ,nucl-ex ,hep-ex ,hep-ph ,nucl-th ,General Science & Technology - Abstract
The coherent elastic scattering of neutrinos off nuclei has eluded detection for four decades, even though its predicted cross section is by far the largest of all low-energy neutrino couplings. This mode of interaction offers new opportunities to study neutrino properties and leads to a miniaturization of detector size, with potential technological applications. We observed this process at a 6.7σ confidence level, using a low-background, 14.6-kilogram CsI[Na] scintillator exposed to the neutrino emissions from the Spallation Neutron Source at Oak Ridge National Laboratory. Characteristic signatures in energy and time, predicted by the standard model for this process, were observed in high signal-to-background conditions. Improved constraints on nonstandard neutrino interactions with quarks are derived from this initial data set.
- Published
- 2017
64. Editorial Conference Comments by the Editors
- Author
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Fabris, L, Valentine, JD, Barton, P, Derenzo, S, Archer, DE, Bell, ZW, Brubaker, E, Conway, AM, Betta, GFD, De Geronimo, G, Fiorini, C, Guazzoni, C, Hayward, JP, Kernan, WJ, Labov, SE, Payne, S, Re, V, Rozenfeld, A, Runkle, R, Sturm, B, Yang, L, Zhuravleva, M, and Ziock, KP
- Subjects
Nuclear & Particles Physics ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Biomedical Engineering ,Other Physical Sciences ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics - Published
- 2017
65. Spectroscopy of Ba and Ba$^+$ deposits in solid xenon for barium tagging in nEXO
- Author
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Mong, B., Cook, S., Walton, T., Chambers, C., Craycraft, A., Benitez-Medina, C., Hall, K., Fairbank Jr., W., Albert, J. B., Auty, D. J., Barbeau, P. S., Basque, V., Beck, D., Breidenbach, M., Brunner, T., Cao, G. F., Cleveland, B., Coon, M., Daniels, T., Daugherty, S. J., DeVoe, R., Didberidze, T., Dilling, J., Dolinski, M. J., Dunford, M., Fabris, L., Farine, J., Feldmeier, W., Fierlinger, P., Fudenberg, D., Giroux, G., Gornea, R., Graham, K., Gratta, G., Heffner, M., Hughes, M., Jiang, X. S., Johnson, T. N., Johnston, S., Karelin, A., Kaufman, L. J., Killick, R., Koffas, T., Kravitz, S., Krucken, R., Kuchenkov, A., Kumar, K. S., Leonard, D. S., Licciardi, C., Lin, Y. H., Ling, J., MacLellan, R., Marino, M. G., Moore, D., Odian, A., Ostrovskiy, I., Piepke, A., Pocar, A., Retiere, F., Rowson, P. C., Rozo, M. P., Schubert, A., Sinclair, D., Smith, E., Stekhanov, V., Tarka, M., Tolba, T., Twelker, K., Vuilleumier, J. -L., Walton, J., Weber, M., Wen, L. J., Wichoski, U., Yang, L., Yen, Y. -R., and Zhao, Y. B.
- Subjects
Physics - Atomic Physics ,High Energy Physics - Experiment ,Nuclear Experiment ,Physics - Instrumentation and Detectors - Abstract
Progress on a method of barium tagging for the nEXO double beta decay experiment is reported. Absorption and emission spectra for deposits of barium atoms and ions in solid xenon matrices are presented. Excitation spectra for prominent emission lines, temperature dependence and bleaching of the fluorescence reveal the existence of different matrix sites. A regular series of sharp lines observed in Ba$^+$ deposits is identified with some type of barium hydride molecule. Lower limits for the fluorescence quantum efficiency of the principal Ba emission transition are reported. Under current conditions, an image of $\le10^4$ Ba atoms can be obtained. Prospects for imaging single Ba atoms in solid xenon are discussed.
- Published
- 2014
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66. Measurements of electron transport in liquid and gas Xenon using a laser-driven photocathode
- Author
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Njoya, O., Tsang, T., Tarka, M., Fairbank, W., Kumar, K.S., Rao, T., Wager, T., Kharusi, S. Al, Anton, G., Arnquist, I.J., Badhrees, I., Barbeau, P.S., Beck, D., Belov, V., Bhatta, T., Brodsky, J.P., Brown, E., Brunner, T., Caden, E., Cao, G.F., Cao, L., Cen, W.R., Chambers, C., Chana, B., Charlebois, S.A., Chiu, M., Cleveland, B., Coon, M., Craycraft, A., Dalmasson, J., Daniels, T., Darroch, L., Daugherty, S.J., De St. Croix, A., Der Mesrobian-Kabakian, A., DeVoe, R., Di Vacri, M.L., Dilling, J., Ding, Y.Y., Dolinski, M.J., Dragone, A., Echevers, J., Elbeltagi, M., Fabris, L., Fairbank, D., Farine, J., Ferrara, S., Feyzbakhsh, S., Fontaine, R., Fucarino, A., Gallina, G., Gautam, P., Giacomini, G., Goeldi, D., Gornea, R., Gratta, G., Hansen, E.V., Heffner, M., Hoppe, E.W., Hößl, J., House, A., Hughes, M., Iverson, A., Jamil, A., Jewell, M.J., Jiang, X.S., Karelin, A., Kaufman, L.J., Kodroff, D., Koffas, T., Krücken, R., Kuchenkov, A., Lan, Y., Larson, A., Leach, K.G., Lenardo, B.G., Leonard, D.S., Li, G., Li, S., Li, Z., Licciardi, C., Lin, Y.H., Lv, P., MacLellan, R., McElroy, T., Medina-Peregrina, M., Michel, T., Mong, B., Moore, D.C., Murray, K., Nakarmi, P., Natzke, C.R., Newby, R.J., Ning, Z., Nolet, F., Nusair, O., Odgers, K., Odian, A., Oriunno, M., Orrell, J.L., Ortega, G.S., Ostrovskiy, I., Overman, C.T., Parent, S., Piepke, A., Pocar, A., Pratte, J.-F., Radeka, V., Raguzin, E., Rescia, S., Retière, F., Richman, M., Robinson, A., Rossignol, T., Rowson, P.C., Roy, N., Runge, J., Saldanha, R., Sangiorgio, S., Skarpaas, K., VIII, Soma, A.K., St-Hilaire, G., Stekhanov, V., Stiegler, T., Sun, X.L., Todd, J., Tolba, T., Totev, T.I., Tsang, R., Vachon, F., Veeraraghavan, V., Viel, S., Visser, G., Vivo-Vilches, C., Vuilleumier, J.-L., Wagenpfeil, M., Walent, M., Wang, Q., Ward, M., Watkins, J., Weber, M., Wei, W., Wen, L.J., Wichoski, U., Wu, S.X., Wu, W.H., Wu, X., Xia, Q., Yang, H., Yang, L., Yen, Y.-R., Zeldovich, O., Zhao, J., Zhou, Y., and Ziegler, T.
- Published
- 2020
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67. Measurement of Electron-Neutrino Charged-Current Cross Sections on I127 with the COHERENT NaIνE Detector
- Author
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An, P., primary, Awe, C., additional, Barbeau, P. S., additional, Becker, B., additional, Belov, V., additional, Bernardi, I., additional, Bock, C., additional, Bolozdynya, A., additional, Bouabid, R., additional, Brown, A., additional, Browning, J., additional, Cabrera-Palmer, B., additional, Cervantes, M., additional, Conley, E., additional, Daughhetee, J., additional, Detwiler, J., additional, Ding, K., additional, Durand, M. R., additional, Efremenko, Y., additional, Elliott, S. R., additional, Fabris, L., additional, Febbraro, M., additional, Gallo Rosso, A., additional, Galindo-Uribarri, A., additional, Germer, A. C., additional, Green, M. P., additional, Hakenmüller, J., additional, Heath, M. R., additional, Hedges, S., additional, Hughes, M., additional, Johnson, B. A., additional, Johnson, T., additional, Khromov, A., additional, Konovalov, A., additional, Kozlova, E., additional, Kumpan, A., additional, Kyzylova, O., additional, Li, L., additional, Link, J. M., additional, Liu, J., additional, Mahoney, M., additional, Major, A., additional, Mann, K., additional, Markoff, D. M., additional, Mastroberti, J., additional, Mattingly, J., additional, Mueller, P. E., additional, Newby, J., additional, Parno, D. S., additional, Penttila, S. I., additional, Pershey, D., additional, Prior, C. G., additional, Rapp, R., additional, Ray, H., additional, Raybern, J., additional, Razuvaeva, O., additional, Reyna, D., additional, Rich, G. C., additional, Ross, J., additional, Rudik, D., additional, Runge, J., additional, Salvat, D. J., additional, Sander, J., additional, Scholberg, K., additional, Shakirov, A., additional, Simakov, G., additional, Sinev, G., additional, Skuse, C., additional, Snow, W. M., additional, Sosnovtsev, V., additional, Subedi, T., additional, Suh, B., additional, Tayloe, R., additional, Tellez-Giron-Flores, K., additional, Tsai, Y.-T., additional, Ujah, E., additional, Vanderwerp, J., additional, van Nieuwenhuizen, E. E., additional, Varner, R. L., additional, Virtue, C. J., additional, Visser, G., additional, Walkup, K., additional, Ward, E. M., additional, Wongjirad, T., additional, Yoo, J., additional, Yu, C.-H., additional, Zawada, A., additional, Zettlemoyer, J., additional, and Zderic, A., additional
- Published
- 2023
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- View/download PDF
68. Experimental results from the characterization of a 32-channels mixed-signal processor for the GAPS experiment
- Author
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Riceputi, E., primary, Manghisoni, M., additional, Re, V., additional, Ghislotti, L., additional, Lazzaroni, P., additional, Ratti, L., additional, Fabris, L., additional, Boezio, M., additional, Zampa, G., additional, Xiao, M., additional, Cavazzuti, E., additional, and Vagelli, V., additional
- Published
- 2023
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69. Novel Cascaded Ring Oscillator Vernier based TDC Architecture with a Feedthrough Reference Oscillator
- Author
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Scarpellini, R., primary, Théberges-Dupuis, G., additional, Roy, N., additional, Rossignol, T., additional, St-Jean, N., additional, Nolet, F., additional, Fabris, L., additional, Charlebois, S. A., additional, and Pratte, J.-F., additional
- Published
- 2023
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- View/download PDF
70. The evil relationship between liver fibrosis and cardiovascular disease in metabolic dysfunction-associated fatty liver disease (MAFLD): Looking for the culprit
- Author
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Fabris, L., primary, Campello, E., additional, Cadamuro, M., additional, and Simioni, P., additional
- Published
- 2023
- Full Text
- View/download PDF
71. Measurement of Pbnat(νe,Xn) production with a stopped-pion neutrino source
- Author
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An, P., primary, Awe, C., additional, Barbeau, P. S., additional, Becker, B., additional, Belling, S. W., additional, Belov, V., additional, Bernardi, I., additional, Bock, C., additional, Bolozdynya, A., additional, Bouabid, R., additional, Brown, A., additional, Browning, J., additional, Cabrera-Palmer, B., additional, Cervantes, M., additional, Conley, E., additional, Daughhetee, J., additional, Detwiler, J., additional, Ding, K., additional, Durand, M. R., additional, Efremenko, Y., additional, Elliott, S. R., additional, Fabris, L., additional, Febbraro, M., additional, Gallo Rosso, A., additional, Galindo-Uribarri, A., additional, Green, M. P., additional, Hakenmüller, J., additional, Heath, M. R., additional, Hedges, S., additional, Hughes, M., additional, Johnson, B. A., additional, Johnson, T., additional, Khromov, A., additional, Konovalov, A., additional, Kozlova, E., additional, Kumpan, A., additional, Kyzylova, O., additional, Li, L., additional, Link, J. M., additional, Liu, J., additional, Major, A., additional, Mann, K., additional, Markoff, D. M., additional, Mastroberti, J., additional, Mattingly, J., additional, Miller, K., additional, Mueller, P. E., additional, Newby, J., additional, Parno, D. S., additional, Penttila, S. I., additional, Pershey, D., additional, Prior, C. G., additional, Rapp, R., additional, Ray, H., additional, Raybern, J., additional, Razuvaeva, O., additional, Reyna, D., additional, Rich, G. C., additional, Ross, J., additional, Rudik, D., additional, Runge, J., additional, Salvat, D. J., additional, Salyapongse, A. M., additional, Sander, J., additional, Scholberg, K., additional, Shakirov, A., additional, Simakov, G., additional, Sinev, G., additional, Snow, W. M., additional, Sosnovtsev, V., additional, Subedi, T., additional, Suh, B., additional, Tayloe, R., additional, Tellez-Giron-Flores, K., additional, Ujah, E., additional, Vanderwerp, J., additional, van Nieuwenhuizen, E. E., additional, Varner, R. L., additional, Virtue, C. J., additional, Visser, G., additional, Walkup, K., additional, Ward, E. M., additional, Wongjirad, T., additional, Yoo, J., additional, Yu, C.-H., additional, and Zettlemoyer, J., additional
- Published
- 2023
- Full Text
- View/download PDF
72. An apparatus to manipulate and identify individual Ba ions from bulk liquid Xe
- Author
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Twelker, K., Kravitz, S., Díez, M. Montero, Gratta, G., Fairbank Jr., W., Albert, J. B., Auty, D. J., Barbeau, P. S., Beck, D., Benitez-Medina, C., Breidenbach, M., Brunner, T., Cao, G. F., Chambers, C., Cleveland, B., Coon, M., Craycraft, A., Daniels, T., Daugherty, S. J., Davis, C. G., DeVoe, R., Delaquis, S., Didberidze, T., Dilling, J., Dolinski, M. J., Dunford, M., Fabris, L., Farine, J., Feldmeier, W., Fierlinger, P., Fudenberg, D., Giroux, G., Gornea, R., Graham, K., Hall, C., Heffner, M., Herrin, S., Hughes, M., Jiang, X. S., Johnson, T. N., Johnston, S., Karelin, A., Kaufman, L. J., Killick, R., Koffas, T., Krücken, R., Kuchenkov, A., Kumar, K. S., Leonard, D. S., Leonard, F., Licciardi, C., Lin, Y. H., MacLellan, R., Marino, M. G., Mong, B., Moore, D., Odian, A., Ostrovskiy, I., Ouellet, C., Piepke, A., Pocar, A., Retiere, F., Rowson, P. C., Rozo, M. P., Schubert, A., Sinclair, D., Smith, E., Stekhanov, V., Tarka, M., Tolba, T., Tosi, D., Vuilleumier, J. -L., Walton, J., Walton, T., Weber, M., Wen, L. J., Wichoski, U., Yang, L., Yen, Y. -R., and Zhao, Y. B.
- Subjects
Physics - Instrumentation and Detectors - Abstract
We describe a system to transport and identify barium ions produced in liquid xenon, as part of R&D towards the second phase of a double beta decay experiment, nEXO. The goal is to identify the Ba ion resulting from an extremely rare nuclear decay of the isotope $^{136}$Xe, hence providing a confirmation of the occurrence of the decay. This is achieved through Resonance Ionization Spectroscopy (RIS). In the test setup described here, Ba ions can be produced in liquid xenon or vacuum and collected on a clean substrate. This substrate is then removed to an analysis chamber under vacuum, where laser-induced thermal desorption and RIS are used with time-of-flight (TOF) mass spectroscopy for positive identification of the barium decay product., Comment: 12 pages, 13 figures
- Published
- 2014
- Full Text
- View/download PDF
73. A Measurement of Atomic X-ray Yields in Exotic Atoms and Implications for an Antideuteron-Based Dark Matter Search
- Author
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Aramaki, T., Chan, S. K., Craig, W. W., Fabris, L., Gahbauer, F., Hailey, C. J., Koglin, J. E., Madden, N., Mori, K., Yu, H. T., and Ziock, K. P.
- Subjects
Astrophysics - Instrumentation and Methods for Astrophysics ,Astrophysics - Cosmology and Extragalactic Astrophysics ,Physics - Instrumentation and Detectors - Abstract
The General AntiParticle Spectrometer (GAPS) is a novel approach for the indirect dark matter search that exploits cosmic antideuterons. GAPS utilizes a distinctive detection method using atomic X-rays and charged particles from the exotic atom as well as the timing, stopping range and dE/dX energy deposit of the incoming particle, which provides excellent antideuteron identification. In anticipation of a future balloon experiment, an accelerator test was conducted in 2004 and 2005 at KEK, Japan, in order to prove the concept and to precisely measure the X-ray yields of antiprotonic exotic atoms formed with different target materials [1]. The X-ray yields of the exotic atoms with Al and S targets were obtained as ~ 75%, which are higher than were previously assumed in [2]. A simple, but comprehensive cascade model has been developed not only to evaluate the measurement results but also to predict the X-ray yields of the exotic atoms formed with any materials in the GAPS instrument. The cascade model is extendable to any kind of exotic atom (any negatively charged cascading particles with any target materials), and it was compared and validated with other experimental data and cascade models for muonic and antiprotonic exotic atoms. The X-ray yields of the antideuteronic exotic atoms are predicted with a simple cascade model and the sensitivity for the GAPS antideuteron search was estimated for the proposed long duration balloon program [3], which suggests that GAPS has a strong potential to detect antideuterons as a dark matter signature. A GAPS prototype flight (pGAPS) was launched successfully from the JAXA/ISAS balloon facility in Hokkaido, Japan in summer 2012 [4, 5] and a proposed GAPS science flight is to fly from Antarctica in the austral summer of 2017-2018., Comment: 17 pages, 25 figures, accepted in "Astroparticle Physics"
- Published
- 2013
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- View/download PDF
74. Identification and quantification of gold engineered nanomaterials and impaired fluid transfer across the rat placenta via ex vivo perfusion
- Author
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D’Errico, J.N., Doherty, C., Fournier, S.B., Renkel, N., Kallontzi, S., Goedken, M., Fabris, L., Buckley, B., and Stapleton, P.A.
- Published
- 2019
- Full Text
- View/download PDF
75. Accelerator Testing of the General Antiparticle Spectrometer, a Novel Approach to Indirect Dark Matter Detection
- Author
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Hailey, C J, Aramaki, T, Craig, W W, Fabris, L, Gahbauer, F, Koglin, J E, Madden, N, Mori, K, Yu, H T, and Ziock, K P
- Subjects
Astrophysics - Abstract
We report on recent accelerator testing of a prototype general antiparticle spectrometer (GAPS). GAPS is a novel approach for indirect dark matter searches that exploits the antideuterons produced in neutralino-neutralino annihilations. GAPS captures these antideuterons into a target with the subsequent formation of exotic atoms. These exotic atoms decay with the emission of X-rays of precisely defined energy and a correlated pion signature from nuclear annihilation. This signature uniquely characterizes the antideuterons. Preliminary analysis of data from a prototype GAPS in an antiproton beam at the KEK accelerator in Japan has confirmed the multi-X-ray/pion star topology and indicated X-ray yields consistent with prior expectations. Moreover our success in utilizing solid rather than gas targets represents a significant simplification over our original approach and offers potential gains in sensitivity through reduced dead mass in the target area., Comment: 18 pages, 9 figures, submitted to JCAP
- Published
- 2005
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76. Effect of Gestational Age on Maternofetal Vascular Function Following Single Maternal Engineered Nanoparticle Exposure
- Author
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Fournier, S. B., Kallontzi, S., Fabris, L., Love, C., and Stapleton, P. A.
- Published
- 2019
- Full Text
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77. Gold nanoparticles in melting gels
- Author
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Kallontzi, S., Fabris, L., Jitianu, M., Hernandez, A., Jitianu, A., and Klein, L. C.
- Published
- 2019
- Full Text
- View/download PDF
78. Applications of melting gels
- Author
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Klein, L. C., Kallontzi, S., Fabris, L., Jitianu, A., Ryan, C., Aparicio, M., Lei, L., and Singer, J. P.
- Published
- 2019
- Full Text
- View/download PDF
79. Holographic analysis of diffraction structure factors
- Author
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Marchesini, S., Mannella, N., Fadley, C. S., Van Hove, M. A., Bucher, J. J., Shuh, D. K., Fabris, L., Press, M. H., West, M. W., Stolte, W. C., and Hussain, Z.
- Subjects
Condensed Matter ,Physics - Optics - Abstract
We combine the theory of inside-source/inside-detector x-ray fluorescence holography and Kossel lines/x ray standing waves in kinematic approximation to directly obtain the phases of the diffraction structure factors. The influence of Kossel lines and standing waves on holography is also discussed. We obtain partial phase determination from experimental data obtaining the sign of the real part of the structure factor for several reciprocal lattice vectors of a vanadium crystal., Comment: 4 pages, 3 figures, submitted
- Published
- 2002
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80. Parameter space and model order reduction for the structural optimisation of passenger ships
- Author
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Rozza, G., Tezzele, M., and Fabris, L.
- Published
- 2023
81. Oxidative Stress in Nonautoimmune Biliary Diseases
- Author
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Cadamuro, M., Fabris, L., Strazzabosco, M., Armstrong, Donald, Editor-in-chief, Albano, Emanuele, editor, and Parola, Maurizio, editor
- Published
- 2015
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82. First Probe of Sub-GeV Dark Matter beyond the Cosmological Expectation with the COHERENT CsI Detector at the SNS
- Author
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Akimov, D., primary, An, P., additional, Awe, C., additional, Barbeau, P. S., additional, Becker, B., additional, Belov, V., additional, Bernardi, I., additional, Blackston, M. A., additional, Bock, C., additional, Bolozdynya, A., additional, Browning, J., additional, Cabrera-Palmer, B., additional, Chernyak, D., additional, Conley, E., additional, Daughhetee, J., additional, Detwiler, J., additional, Ding, K., additional, Durand, M. R., additional, Efremenko, Y., additional, Elliott, S. R., additional, Fabris, L., additional, Febbraro, M., additional, Gallo Rosso, A., additional, Galindo-Uribarri, A., additional, Green, M. P., additional, Heath, M. R., additional, Hedges, S., additional, Hoang, D., additional, Hughes, M., additional, Johnson, T., additional, Khromov, A., additional, Konovalov, A., additional, Kozlova, E., additional, Kumpan, A., additional, Li, L., additional, Link, J. M., additional, Liu, J., additional, Mann, K., additional, Markoff, D. M., additional, Mastroberti, J., additional, Mueller, P. E., additional, Newby, J., additional, Parno, D. S., additional, Penttila, S. I., additional, Pershey, D., additional, Rapp, R., additional, Raybern, J., additional, Razuvaeva, O., additional, Reyna, D., additional, Rich, G. C., additional, Ross, J., additional, Rudik, D., additional, Runge, J., additional, Salvat, D. J., additional, Salyapongse, A. M., additional, Sander, J., additional, Scholberg, K., additional, Shakirov, A., additional, Simakov, G., additional, Sinev, G., additional, Snow, W. M., additional, Sosnovtsev, V., additional, Suh, B., additional, Tayloe, R., additional, Tellez-Giron-Flores, K., additional, Tolstukhin, I., additional, Ujah, E., additional, Vanderwerp, J., additional, Varner, R. L., additional, Virtue, C. J., additional, Visser, G., additional, Wongjirad, T., additional, Yen, Y.-R., additional, Yoo, J., additional, Yu, C.-H., additional, and Zettlemoyer, J., additional
- Published
- 2023
- Full Text
- View/download PDF
83. Parameter space and model order reduction for the structural optimisation of passenger ships
- Author
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Rozza, G., primary, Tezzele, M., additional, and Fabris, L., additional
- Published
- 2023
- Full Text
- View/download PDF
84. A 2D imager for X-ray FELs with a 65 nm CMOS readout based on per-pixel signal compression and 10 bit A/D conversion
- Author
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Ratti, L., Comotti, D., Fabris, L., Grassi, M., Lodola, L., Malcovati, P., Manghisoni, M., Re, V., Traversi, G., Vacchi, C., Rizzo, G., Batignani, G., Bettarini, S., Casarosa, G., Forti, F., Giorgi, M., Morsani, F., Paladino, A., Paoloni, E., Pancheri, L., Dalla Betta, G.-F., Mendicino, R., Verzellesi, G., Xu, H., and Benkechkache, M.A.
- Published
- 2016
- Full Text
- View/download PDF
85. The PixFEL project: Progress towards a fine pitch X-ray imaging camera for next generation FEL facilities
- Author
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Rizzo, G., Batignani, G., Benkechkache, M.A., Bettarini, S., Casarosa, G., Comotti, D., Dalla Betta, G.-F., Fabris, L., Forti, F., Grassi, M., Lodola, L., Malcovati, P., Manghisoni, M., Mendicino, R., Morsani, F., Paladino, A., Pancheri, L., Paoloni, E., Ratti, L., Re, V., Traversi, G., Vacchi, C., Verzellesi, G., and Xu, H.
- Published
- 2016
- Full Text
- View/download PDF
86. In-pixel conversion with a 10 bit SAR ADC for next generation X-ray FELs
- Author
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Lodola, L., Batignani, G., Benkechkache, M.A., Bettarini, S., Casarosa, G., Comotti, D., Dalla Betta, G.F., Fabris, L., Forti, F., Grassi, M., Latreche, S., Malcovati, P., Manghisoni, M., Mendicino, R., Morsani, F., Paladino, A., Pancheri, L., Paoloni, E., Ratti, L., Re, V., Rizzo, G., Traversi, G., Vacchi, C., Verzellesi, G., and Xu, H.
- Published
- 2016
- Full Text
- View/download PDF
87. Motion correction for passive radiation imaging of small vessels in ship-to-ship inspections
- Author
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Ziock, K.P., Boehnen, C.B., Ernst, J.M., Fabris, L., Hayward, J.P., Karnowski, T.P., Paquit, V.C., Patlolla, D.R., and Trombino, D.G.
- Published
- 2016
- Full Text
- View/download PDF
88. Neutrinoless Double Beta Decay
- Author
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Adams, C., Alfonso, K., Andreoiu, C., Angelico, E., Arnquist, I. J., Asaadi, J. A. A., Avignone, F. T., Axani, S. N., Barabash, A. S., Barbeau, P. S., Baudis, L., Bellini, F., Beretta, M., Bhatta, T., Biancacci, V., Biassoni, M., Bossio, E., Breur, P. A., Brodsky, J. P., Brofferio, C., Brown, E., Brugnera, R., Brunner, T., Burlac, N., Caden, E., Calgaro, S., Cao, G. F., Cao, L., Capelli, C., Cardani, L., Castillo Fernández, R., Cattadori, C. M., Chana, B., Chernyak, D., Christofferson, C. D., Chu, P. -H, Church, E., Cirigliano, V., Collister, R., Comellato, T., Dalmasson, J., D Andrea, V., Daniels, T., Darroch, L., Decowski, M. P., Demarteau, M., Meireles Peixoto, S., Detwiler, J. A., Devoe, R. G., Di Domizio, S., Di Marco, N., Di Vacri, M. L., Dolinski, M. J., Efremenko, Yu, Elbeltagi, M., Elliott, S. R., Engel, J., Fabris, L., Fairbank, W. M., Farine, J., Febbraro, M., Figueroa-Feliciano, E., Fields, D. E., Formaggio, J. A., Foust, B. T., Franke, B., Fu, Y., Fujikawa, B. K., Gallacher, D., Gallina, G., Garfagnini, A., Gingras, C., Gironi, L., Giuliani, A., Gold, M., Gornea, R., Grant, C., Gratta, G., Green, M. P., Grinyer, G. F., Julieta Gruszko, Guan, Y., Guinn, I. S., Guiseppe, V. E., Gutierrez, T. D., Hansen, E. V., Hardy, C. A., Hauptman, J., Heffner, M., Heeger, K. M., Henning, R., Hergert, H., Aguilar, D. Hervas, Hodák, R., Holt, J. D., Hoppe, E. W., Horoi, M., Huang, H. Z., Inoue, K., Jamil, A., Jochum, J., Jones, B. J. P., Kaizer, J., Karapetrov, G., Kharusi, S. Al, Kidd, M. F., Kishimoto, Y., Klein, J. R., Kolomensky, Yu G., Kontul, I., Kornoukhov, V. N., Krause, P., Krücken, R., Kumar, K. S., Lang, K., Leach, K. G., Lenardo, B. G., Leonhardt, A., Li, A., Li, G., Li, Z., Licciardi, C., Lindsay, R., Lippi, I., Liu, J., Macko, M., Maclellan, R., Macolino, C., Majidi, S., Mamedov, F., Masbou, J., Massarczyk, R., Mastbaum, A. T., Mayer, D., Mazumdar, A., Mei, D. M., Mei, Y., Meijer, S. J., Mereghetti, E., Mertens, S., Mistry, K., Mitsui, T., Moore, D. C., Morella, M., Nattress, J. T., Neuberger, M., Ngwadla, X. E., Nones, C., Novosad, V., Nygren, D. R., Ondze, J. C. Nzobadila, O Donnell, T., Orebi Gann, G. D., Orrell, J. L., Ortega, G. S., Ouellet, J. L., Overman, C., Pagani, L., Palusova, V., Para, A., Pavan, M., Perna, A., Pertoldi, L., Pettus, W., Piepke, A., Piseri, P., Pocar, A., Povinec, P., Psihas, F., Pullia, A., Radford, D. C., Ramonnye, G. J., Rasiwala, H., Redchuk, M., Riboldi, S., Richardson, G., Rielage, K., Rogers, L., Rowson, P. C., Rukhadze, E., Saakyan, R., Sada, C., Salamanna, G., Salamida, F., Saldanha, R., Salvat, D. J., Sangiorgio, S., Schaper, D. C., Schönert, S., Schwarz, M., Schwartz, S. E., Shitov, Y., Simkovic, F., Singh, V., Slavickova, M., Sousa, A. C., Spadoni, F. L., Speller, D. H., Stekl, I., Sumathi, R. R., Surukuchi, P. T., Tayloe, R., Tornow, W., Torres, J. A., Totev, T. I., Triambak, S., Tyuka, O. A., Vasilyev, S. I., Velazquez, M., Viel, S., Vogl, C., Strum, K., Wang, Q., Waters, D., Watkins, S. L., Watts, M., Wei, W. -Z, Welliver, B., Wen, Liangjian, Wichoski, U., Wilde, S., Wilkerson, J. F., Winslow, L., Wiseman, C., Wu, X., Xu, W., Yang, H., Yang, L., Yu, C. H., Zeman, J., Zennamo, J., Zuzel, G., Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique subatomique et des technologies associées (SUBATECH), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-IMT Atlantique (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-Nantes université - UFR des Sciences et des Techniques (Nantes univ - UFR ST), Nantes Université - pôle Sciences et technologie, Nantes Université (Nantes Univ)-Nantes Université (Nantes Univ)-Nantes Université - pôle Sciences et technologie, Nantes Université (Nantes Univ)-Nantes Université (Nantes Univ), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Science et Ingénierie des Matériaux et Procédés (SIMaP), Institut de Chimie du CNRS (INC)-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), and HEP, INSPIRE
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[PHYS.NUCL] Physics [physics]/Nuclear Theory [nucl-th] ,Nuclear Theory ,nucl-th ,[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th] ,[PHYS.NEXP] Physics [physics]/Nuclear Experiment [nucl-ex] ,FOS: Physical sciences ,[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex] ,nucl-ex ,Nuclear Theory (nucl-th) ,double-beta decay: (0neutrino) ,nuclear physics ,Nuclear Physics - Theory ,neutrino: Majorana ,Nuclear Physics - Experiment ,lepton number ,neutrino: mass ,Nuclear Experiment (nucl-ex) ,Nuclear Experiment ,activity report - Abstract
This White Paper, prepared for the Fundamental Symmetries, Neutrons, and Neutrinos Town Meeting related to the 2023 Nuclear Physics Long Range Plan, makes the case for double beta decay as a critical component of the future nuclear physics program. The major experimental collaborations and many theorists have endorsed this white paper., white paper submitted for the Fundamental Symmetries, Neutrons, and Neutrinos Town Meeting in support of the US Nuclear Physics Long Range Planning Process
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- 2023
89. Measurement of the inclusive electron-neutrino charged-current cross section on ${}^{127}$I with the COHERENT NaI$ν$E detector
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An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Bernardi, I., Bock, C., Bolozdynya, A., Bouabid, R., Brown, A., Browning, J., Cabrera-Palmer, B., Cervantes, M., Conley, E., Daughhetee, J., Detwiler, J., Ding, K., Durand, M. R., Efremenko, Y., Elliott, S. R., Fabris, L., Febbraro, M., Rosso, A. Gallo, Galindo-Uribarri, A., Germer, A. C., Green, M. P., Hakenmueller, J., Heath, M. R., Hedges, S., Hughes, M., Johnson, B. A., Johnson, T., Khromov, A., Konovalov, A., Kozlova, E., Kumpan, A., Kyzylova, O., Li, L., Link, J. M., Liu, J., Mahoney, M., Major, A., Mann, K., Markoff, D. M., Mastroberti, J., Mattingly, J., Mueller, P. E., Newby, J., Parno, D. S., Penttila, S. I., Pershey, D., Prior, C. G., Rapp, R., Ray, H., Raybern, J., Razuvaeva, O., Reyna, D., Rich, G. C., Ross, J., Rudik, D., Runge, J., Salvat, D. J., Sander, J., Scholberg, K., Shakirov, A., Simakov, G., Sinev, G., Skuse, C., Snow, W. M., Sosnovtsev, V., Subedi, T., Suh, B., Tayloe, R., Tellez-Giron-Flores, K., Tsai, Y. -T., Ujah, E., Vanderwerp, J., van Nieuwenhuizen, E. E., Varner, R. L., Virtue, C. J., Visser, G., Walkup, K., Ward, E. M., Wongjirad, T., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., and Zderic, A.
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High Energy Physics - Experiment (hep-ex) ,FOS: Physical sciences ,Nuclear Experiment (nucl-ex) ,Nuclear Experiment ,High Energy Physics - Experiment - Abstract
Using an 185-kg NaI[Tl] array, COHERENT has measured the inclusive electron-neutrino charged-current cross section on ${}^{127}$I with neutrinos produced by the Spallation Neutron Source at Oak Ridge National Laboratory. Iodine is one the heaviest targets for which low-energy ($\leq 50$ MeV) inelastic neutrino-nucleus processes have been measured, and this is the first measurement of its inclusive cross section. After a five-year detector exposure, COHERENT reports a flux-averaged cross section for electron neutrinos produced at a pion decay-at-rest source of $9.2^{+2.1}_{-1.8}\times10^{-40}$ cm$^2$. This corresponds to a value that is $\sim$41% lower than predicted using the MARLEY event generator with a measured Gamow-Teller strength distribution. In addition, the observed visible spectrum from charged-current scattering on ${}^{127}$I has been measured between 10 and 55 MeV, and the exclusive zero-neutron and one-or-more-neutron emission cross sections are measured to be $5.12_{-3.1}^{+3.4} \times 10^{-40}\mbox{ cm}^2$ and $2.2_{-0.5}^{+0.4} \times 10^{-40}\mbox{ cm}^2$, respectively., Comment: 7 pages, 6 figures
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- 2023
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90. A Fast, Compact Solution for Low Noise Charge Preamplifiers
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Fabris, L.
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- 1998
91. PixFEL: developing a fine pitch, fast 2D X-ray imager for the next generation X-FELs
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Ratti, L., Comotti, D., Fabris, L., Grassi, M., Lodola, L., Malcovati, P., Manghisoni, M., Re, V., Traversi, G., Vacchi, C., Bettarini, S., Casarosa, G., Forti, F., Morsani, F., Paladino, A., Paoloni, E., Rizzo, G., Benkechkache, M.A., Dalla Betta, G.-F., Mendicino, R., Pancheri, L., Verzellesi, G., and Xu, H.
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- 2015
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92. MINIMALLY INVASIVE DIAGNOSTIC BLOCK AND PERCUTANEOUS RADIOFREQUENCY ABLATION IN THE TREATMENT OF CHRONIC HIP PAIN -- REVIEW ARTICLE.
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Kalagac Fabris, L., Zanghirella Maretić, S., Petrinović, M., and Tepšić, T.
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- 2023
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93. Event localization in bulk scintillator crystals using coded apertures
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Ziock, K.P., Braverman, J.B., Fabris, L., Harrison, M.J., Hornback, D., and Newby, J.
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- 2015
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94. An RF-only ion-funnel for extraction from high-pressure gases
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Brunner, T., Fudenberg, D., Varentsov, V., Sabourov, A., Gratta, G., Dilling, J., DeVoe, R., Sinclair, D., Fairbank, W., Jr., Albert, J.B., Auty, D.J., Barbeau, P.S., Beck, D., Benitez-Medina, C., Breidenbach, M., Cao, G.F., Chambers, C., Cleveland, B., Coon, M., Craycraft, A., Daniels, T., Daugherty, S.J., Didberidze, T., Dolinski, M.J., Dunford, M., Fabris, L., Farine, J., Feldmeier, W., Fierlinger, P., Gornea, R., Graham, K., Heffner, M., Hughes, M., Jewell, M., Jiang, X.S., Johnson, T.N., Johnston, S., Karelin, A., Kaufman, L.J., Killick, R., Koffas, T., Kravitz, S., Krücken, R., Kuchenkov, A., Kumar, K.S., Leonard, D.S., Leonard, F., Licciardi, C., Lin, Y.H., Ling, J., MacLellan, R., Marino, M.G., Mong, B., Moore, D., Odian, A., Ostrovskiy, I., Ouellet, C., Piepke, A., Pocar, A., Retiere, F., Rowson, P.C., Rozo, M.P., Schubert, A., Smith, E., Stekhanov, V., Tarka, M., Tolba, T., Tosi, D., Twelker, K., Vuilleumier, J.-L., Walton, J., Walton, T., Weber, M., Wen, L.J., Wichoski, U., Yang, L., and Yen, Y.-R.
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- 2015
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95. Systematic measurement of fast neutron background fluctuations in an urban area using a mobile detection system
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Iyengar, A., Beach, M., Newby, R.J., Fabris, L., Heilbronn, L.H., and Hayward, J.P.
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- 2015
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96. Performance of novel VUV-sensitive Silicon Photo-Multipliers for nEXO
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Gallina, G., primary, Guan, Y., additional, Retiere, F., additional, Cao, G., additional, Bolotnikov, A., additional, Kotov, I., additional, Rescia, S., additional, Soma, A. K., additional, Tsang, T., additional, Darroch, L., additional, Brunner, T., additional, Bolster, J., additional, Cohen, J. R., additional, Franco, T. Pinto, additional, Gillis, W. C., additional, Smalley, H. Peltz, additional, Thibado, S., additional, Pocar, A., additional, Bhat, A., additional, Jamil, A., additional, Moore, D. C., additional, Adhikari, G., additional, Kharusi, S. Al, additional, Angelico, E., additional, Arnquist, I. J., additional, Arsenault, P., additional, Badhrees, I., additional, Bane, J., additional, Belov, V., additional, Bernard, E. P., additional, Bhatta, T., additional, Breur, P. A., additional, Brodsky, J. P., additional, Brown, E., additional, Caden, E., additional, Cao, L., additional, Chambers, C., additional, Chana, B., additional, Charlebois, S. A., additional, Chernyak, D., additional, Chiu, M., additional, Cleveland, B., additional, Collister, R., additional, Cvitan, M., additional, Dalmasson, J., additional, Daniels, T., additional, Deslandes, K., additional, DeVoe, R., additional, di Vacri, M. L., additional, Ding, Y., additional, Dolinski, M. J., additional, Dragone, A., additional, Echevers, J., additional, Eckert, B., additional, Elbeltagi, M., additional, Fabris, L., additional, Fairbank, W., additional, Farine, J., additional, Fu, Y. S., additional, Gallacher, D., additional, Gautam, P., additional, Giacomini, G., additional, Gingras, C., additional, Goeldi, D., additional, Gornea, R., additional, Gratta, G., additional, Hardy, C. A., additional, Hedges, S., additional, Heffner, M., additional, Hein, E., additional, Holt, J., additional, Hoppe, E. W., additional, Hößl, J., additional, House, A., additional, Hunt, W., additional, Iverson, A., additional, Jiang, X. S., additional, Karelin, A., additional, Kaufman, L. J., additional, Krücken, R., additional, Kuchenkov, A., additional, Kumar, K. S., additional, Larson, A., additional, Leach, K. G., additional, Lenardo, B. G., additional, Leonard, D. S., additional, Lessard, G., additional, Li, G., additional, Li, S., additional, Li, Z., additional, Licciardi, C., additional, Lindsay, R., additional, MacLellan, R., additional, Mahtab, M., additional, Majidi, S., additional, Malbrunot, C., additional, Margetak, P., additional, Martel-Dion, P., additional, Martin, L., additional, Masbou, J., additional, Massacret, N., additional, McMichael, K., additional, Mong, B., additional, Murray, K., additional, Nattress, J., additional, Natzke, C. R., additional, Ngwadla, X. E., additional, Ondze, J. C. Nzobadila, additional, Odian, A., additional, Orrell, J. L., additional, Ortega, G. S., additional, Overman, C. T., additional, Parent, S., additional, Perna, A., additional, Piepke, A., additional, Pletskova, N., additional, Pratte, J. F., additional, Radeka, V., additional, Raguzin, E., additional, Ramonnye, G. J., additional, Rao, T., additional, Rasiwala, H., additional, Raymond, K., additional, Rebeiro, B. M., additional, Richardson, G., additional, Ringuette, J., additional, Riot, V., additional, Rossignol, T., additional, Rowson, P. C., additional, Rudolph, L., additional, Saldanha, R., additional, Sangiorgio, S., additional, Shang, X., additional, Spadoni, F., additional, Stekhanov, V., additional, Sun, X. L., additional, Tidball, A., additional, Totev, T., additional, Triambak, S., additional, Tsang, R. H. M., additional, Tyuka, O. A., additional, Vachon, F., additional, Vidal, M., additional, Viel, S., additional, Visser, G., additional, Wagenpfeil, M., additional, Walent, M., additional, Wamba, K., additional, Wang, Q., additional, Wang, W., additional, Wang, Y., additional, Watts, M., additional, Wei, W., additional, Wen, L. J., additional, Wichoski, U., additional, Wilde, S., additional, Worcester, M., additional, Wu, W. H., additional, Wu, X., additional, Xie, L., additional, Yan, W., additional, Yang, H., additional, Yang, L., additional, Zeldovich, O., additional, Zhao, J., additional, and Ziegler, T., additional
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- 2022
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97. Measurement of scintillation response of CsI[Na] to low-energy nuclear recoils by COHERENT
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Akimov, D., primary, An, P., additional, Awe, C., additional, Barbeau, P.S., additional, Becker, B., additional, Belov, V., additional, Bernardi, I., additional, Blackston, M.A., additional, Bock, C., additional, Bolozdynya, A., additional, Browning, J., additional, Cabrera-Palmer, B., additional, Chernyak, D., additional, Conley, E., additional, Daughhetee, J., additional, Detwiler, J., additional, Ding, K., additional, Durand, M.R., additional, Efremenko, Y., additional, Elliott, S.R., additional, Fabris, L., additional, Febbraro, M., additional, Gallo Rosso, A., additional, Galindo-Uribarri, A., additional, Green, M.P., additional, Heath, M.R., additional, Hedges, S., additional, Hoang, D., additional, Hughes, M., additional, Johnson, T., additional, Khromov, A., additional, Konovalov, A., additional, Kozlova, E., additional, Kumpan, A., additional, Li, L., additional, Link, J.M., additional, Liu, J., additional, Mann, K., additional, Markoff, D.M., additional, Mastroberti, J., additional, Melikyan, Y.A., additional, Mueller, P.E., additional, Newby, J., additional, Parno, D.S., additional, Penttila, S.I., additional, Pershey, D., additional, Rapp, R., additional, Ray, H., additional, Raybern, J., additional, Razuvaeva, O., additional, Reyna, D., additional, Rich, G.C., additional, Ross, J., additional, Rudik, D., additional, Runge, J., additional, Salvat, D.J., additional, Salyapongse, A.M., additional, Scholberg, K., additional, Shakirov, A., additional, Simakov, G., additional, Sinev, G., additional, Snow, W.M., additional, Sosnovtsev, V., additional, Suh, B., additional, Tayloe, R., additional, Tellez-Giron-Flores, K., additional, Tolstukhin, I., additional, Ujah, E., additional, Vanderwerp, J., additional, Varner, R.L., additional, Virtue, C.J., additional, Visser, G., additional, Wongjirad, T., additional, Yen, Y.-R., additional, Yoo, J., additional, Yu, C.-H., additional, and Zettlemoyer, J., additional
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- 2022
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98. Corrigendum to ‘An international genome-wide meta-analysis of primary biliary cholangitis: Novel risk loci and candidate drugs’ [J Hepatol 2021;75(3):572–581] (Journal of Hepatology (2021) 75(3) (572–581), (S0168827821003342), (10.1016/j.jhep.2021.04.055))
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Cordell, H. J., Fryett, J. J., Ueno, K., Darlay, R., Aiba, Y., Hitomi, Y., Kawashima, M., Nishida, N., Khor, S. -S., Gervais, O., Kawai, Y., Nagasaki, M., Tokunaga, K., Tang, R., Shi, Y., Li, Z., Juran, B. D., Atkinson, E. J., Gerussi, A., Carbone, M., Asselta, R., Cheung, A., de Andrade, M., Baras, A., Horowitz, J., Ferreira, M. A. R., Sun, D., Jones, D. E., Flack, S., Spicer, A., Mulcahy, V. L., Byun, J., Han, Y., Sandford, R. N., Lazaridis, K. N., Amos, C. I., Hirschfield, G. M., Seldin, M. F., Invernizzi, P., Siminovitch, K. A., Ma, X., Nakamura, M., Mells, G. F., Mason, A., Vincent, C., Xie, G., Zhang, J., Affronti, A., Almasio, P. L., Alvaro, D., Andreone, P., Andriulli, A., Azzaroli, F., Battezzati, P. M., Benedetti, A., Bragazzi, M., Brunetto, M., Bruno, S., Calvaruso, V., Cardinale, V., Casella, G., Cazzagon, N., Ciaccio, A., Coco, B., Colli, A., Colloredo, G., Colombo, M., Colombo, S., Cristoferi, L., Cursaro, C., Croce, L. S., Crosignani, A., D'Amato, D., Donato, F., Elia, G., Fabris, L., Fagiuoli, S., Ferrari, C., Floreani, A., Galli, A., Giannini, E., Grattagliano, I., Lampertico, P., Lleo, A., Malinverno, F., Mancuso, C., Marra, F., Marzioni, M., Massironi, S., Mattalia, A., Miele, L., Milani, C., Morini, L., Morisco, F., Muratori, L., Muratori, P., Niro, G. A., O'Donnell, S., Picciotto, A., Portincasa, P., Rigamonti, C., Ronca, V., Rosina, F., Spinzi, G., Strazzabosco, M., Tarocchi, M., Tiribelli, C., Toniutto, P., Valenti, L., Vinci, M., Zuin, M., Nakamura, H., Abiru, S., Nagaoka, S., Komori, A., Yatsuhashi, H., Ishibashi, H., Ito, M., Migita, K., Ohira, H., Katsushima, S., Naganuma, A., Sugi, K., Komatsu, T., Mannami, T., Matsushita, K., Yoshizawa, K., Makita, F., Nikami, T., Nishimura, H., Kouno, H., Ota, H., Komura, T., Nakamura, Y., Shimada, M., Hirashima, N., Komeda, T., Ario, K., Nakamuta, M., Yamashita, T., Furuta, K., Kikuchi, M., Naeshiro, N., Takahashi, H., Mano, Y., Tsunematsu, S., Yabuuchi, I., Shimada, Y., Yamauchi, K., Sugimoto, R., Sakai, H., Mita, E., Koda, M., Tsuruta, S., Kamitsukasa, H., Sato, T., Masaki, N., Kobata, T., Fukushima, N., Ohara, Y., Muro, T., Takesaki, E., Takaki, H., Yamamoto, T., Kato, M., Nagaoki, Y., Hayashi, S., Ishida, J., Watanabe, Y., Kobayashi, M., Koga, M., Saoshiro, T., Yagura, M., Hirata, K., Tanaka, A., Takikawa, H., Zeniya, M., Abe, M., Onji, M., Kaneko, S., Honda, M., Arai, K., Arinaga-Hino, T., Hashimoto, E., Taniai, M., Umemura, T., Joshita, S., Nakao, K., Ichikawa, T., Shibata, H., Yamagiwa, S., Seike, M., Honda, K., Sakisaka, S., Takeyama, Y., Harada, M., Senju, M., Yokosuka, O., Kanda, T., Ueno, Y., Kikuchi, K., Ebinuma, H., Himoto, T., Yasunami, M., Murata, K., Mizokami, M., Kawata, K., Shimoda, S., Miyake, Y., Takaki, A., Yamamoto, K., Hirano, K., Ichida, T., Ido, A., Tsubouchi, H., Chayama, K., Harada, K., Nakanuma, Y., Maehara, Y., Taketomi, A., Shirabe, K., Soejima, Y., Mori, A., Yagi, S., Uemoto, S., H, E., Tanaka, T., Yamashiki, N., Tamura, S., Sugawara, Y., Kokudo, N., Chalasani, N., Luketic, V., Odin, J., Chopra, K., Abecasis, G., Cantor, M., Coppola, G., Economides, A., Lotta, L. A., Overton, J. D., Reid, J. G., Shuldiner, A., Beechert, C., Forsythe, C., Fuller, E. D., Gu, Z., Lattari, M., Lopez, A., Schleicher, T. D., Padilla, M. S., Toledo, K., Widom, L., Wolf, S. E., Pradhan, M., Manoochehri, K., Ulloa, R. H., Bai, X., Balasubramanian, S., Barnard, L., Blumenfeld, A., Eom, G., Habegger, L., Hawes, A., Khalid, S., Maxwell, E. K., Salerno, W., Staples, J. C., Jones, M. B., Mitnaul, L. J., Sturgess, R., Healey, C., Yeoman, A., Gunasekera, A. V., Kooner, P., Kapur, K., Sathyanarayana, V., Kallis, Y., Subhani, J., Harvey, R., Mccorry, R., Rooney, P., Ramanaden, D., Evans, R., Mathialahan, T., Gasem, J., Shorrock, C., Bhalme, M., Southern, P., Tibble, J. A., Gorard, D. A., Jones, S., Mells, G., Mulcahy, V., Srivastava, B., Foxton, M. R., Collins, C. E., Elphick, D., Karmo, M., Porras-Perez, F., Mendall, M., Yapp, T., Patel, M., Ede, R., Sayer, J., Jupp, J., Fisher, N., Carter, M. J., Koss, K., Shah, J., Piotrowicz, A., Scott, G., Grimley, C., Gooding, I. R., Williams, S., Tidbury, J., Lim, G., Cheent, K., Levi, S., Mansour, D., Beckley, M., Hollywood, C., Wong, T., Marley, R., Ramage, J., Gordon, H. M., Ridpath, J., Ngatchu, T., Bob Grover, V. P., Shidrawi, R. G., Abouda, G., Corless, L., Narain, M., Rees, I., Brown, A., Taylor-Robinson, S., Wilkins, J., Grellier, L., Banim, P., Das, D., Heneghan, M. A., Curtis, H., Matthews, H. C., Mohammed, F., Aldersley, M., Srirajaskanthan, R., Walker, G., Mcnair, A., Sharif, A., Sen, S., Bird, G., Prince, M. I., Prasad, G., Kitchen, P., Barnardo, A., Oza, C., Sivaramakrishnan, N. N., Gupta, P., Shah, A., Evans, C. D., Saha, S., Pollock, K., Bramley, P., Mukhopadhya, A., Barclay, S. T., Mcdonald, N., Bathgate, A. J., Palmer, K., Dillon, J. F., Rushbrook, S. M., Przemioslo, R., Mcdonald, C., Millar, A., Tai, C., Mitchell, S., Metcalf, J., Shaukat, S., Ninkovic, M., Shmueli, U., Davis, A., Naqvi, A., Lee, T. J., Ryder, S., Collier, J., Klass, H., Cramp, M. E., Sharer, N., Aspinall, R., Ghosh, D., Douds, A. C., Booth, J., Williams, E., Hussaini, H., Christie, J., Mann, S., Thorburn, D., Marshall, A., Patanwala, I., Ala, A., Maltby, J., Matthew, R., Corbett, C., Vyas, S., Singhal, S., Gleeson, D., Misra, S., Butterworth, J., George, K., Harding, T., Douglass, A., Mitchison, H., Panter, S., Shearman, J., Bray, G., Roberts, M., Butcher, G., Forton, D., Mahmood, Z., Cowan, M., Ch'Ng, C. L., Rahman, M., Whatley, G. C. A., Wesley, E., Mandal, A., Jain, S., Pereira, S. P., Wright, M., Trivedi, P., Gordon, F. H., Unitt, E., Palejwala, A., Austin, A., Vemala, V., Grant, A., Higham, A. D., Brind, A., Mathew, R., Cox, M., Ramakrishnan, S., King, A., Whalley, S., Fraser, J., Thomson, S. J., Bell, A., Wong, V. S., Kia, R., Gee, I., Keld, R., Ransford, R., Gotto, J., Millson, C., Cordell H.J., Fryett J.J., Ueno K., Darlay R., Aiba Y., Hitomi Y., Kawashima M., Nishida N., Khor S.-S., Gervais O., Kawai Y., Nagasaki M., Tokunaga K., Tang R., Shi Y., Li Z., Juran B.D., Atkinson E.J., Gerussi A., Carbone M., Asselta R., Cheung A., de Andrade M., Baras A., Horowitz J., Ferreira M.A.R., Sun D., Jones D.E., Flack S., Spicer A., Mulcahy V.L., Byun J., Han Y., Sandford R.N., Lazaridis K.N., Amos C.I., Hirschfield G.M., Seldin M.F., Invernizzi P., Siminovitch K.A., Ma X., Nakamura M., Mells G.F., Mason A., Vincent C., Xie G., Zhang J., Affronti A., Almasio P.L., Alvaro D., Andreone P., Andriulli A., Azzaroli F., Battezzati P.M., Benedetti A., Bragazzi M.C., Brunetto M., Bruno S., Calvaruso V., Cardinale V., Casella G., Cazzagon N., Ciaccio A., Coco B., Colli A., Colloredo G., Colombo M., Colombo S., Cristoferi L., Cursaro C., Croce L.S., Crosignani A., D'Amato D., Donato F., Elia G., Fabris L., Fagiuoli S., Ferrari C., Floreani A., Galli A., Giannini E., Grattagliano I., Lampertico P., Lleo A., Malinverno F., Mancuso C., Marra F., Marzioni M., Massironi S., Mattalia A., Miele L., Milani C., Morini L., Morisco F., Muratori L., Muratori P., Niro G.A., O'Donnell S., Picciotto A., Portincasa P., Rigamonti C., Ronca V., Rosina F., Spinzi G., Strazzabosco M., Tarocchi M., Tiribelli C., Toniutto P., Valenti L., Vinci M., Zuin M., Nakamura H., Abiru S., Nagaoka S., Komori A., Yatsuhashi H., Ishibashi H., Ito M., Migita K., Ohira H., Katsushima S., Naganuma A., Sugi K., Komatsu T., Mannami T., Matsushita K., Yoshizawa K., Makita F., Nikami T., Nishimura H., Kouno H., Ota H., Komura T., Nakamura Y., Shimada M., Hirashima N., Komeda T., Ario K., Nakamuta M., Yamashita T., Furuta K., Kikuchi M., Naeshiro N., Takahashi H., Mano Y., Tsunematsu S., Yabuuchi I., Shimada Y., Yamauchi K., Sugimoto R., Sakai H., Mita E., Koda M., Tsuruta S., Kamitsukasa H., Sato T., Masaki N., Kobata T., Fukushima N., Ohara Y., Muro T., Takesaki E., Takaki H., Yamamoto T., Kato M., Nagaoki Y., Hayashi S., Ishida J., Watanabe Y., Kobayashi M., Koga M., Saoshiro T., Yagura M., Hirata K., Tanaka A., Takikawa H., Zeniya M., Abe M., Onji M., Kaneko S., Honda M., Arai K., Arinaga-Hino T., Hashimoto E., Taniai M., Umemura T., Joshita S., Nakao K., Ichikawa T., Shibata H., Yamagiwa S., Seike M., Honda K., Sakisaka S., Takeyama Y., Harada M., Senju M., Yokosuka O., Kanda T., Ueno Y., Kikuchi K., Ebinuma H., Himoto T., Yasunami M., Murata K., Mizokami M., Kawata K., Shimoda S., Miyake Y., Takaki A., Yamamoto K., Hirano K., Ichida T., Ido A., Tsubouchi H., Chayama K., Harada K., Nakanuma Y., Maehara Y., Taketomi A., Shirabe K., Soejima Y., Mori A., Yagi S., Uemoto S., H E., Tanaka T., Yamashiki N., Tamura S., Sugawara Y., Kokudo N., Chalasani N., Luketic V., Odin J., Chopra K., Abecasis G., Cantor M., Coppola G., Economides A., Lotta L.A., Overton J.D., Reid J.G., Shuldiner A., Beechert C., Forsythe C., Fuller E.D., Gu Z., Lattari M., Lopez A., Schleicher T.D., Padilla M.S., Toledo K., Widom L., Wolf S.E., Pradhan M., Manoochehri K., Ulloa R.H., Bai X., Balasubramanian S., Barnard L., Blumenfeld A., Eom G., Habegger L., Hawes A., Khalid S., Maxwell E.K., Salerno W., Staples J.C., Jones M.B., Mitnaul L.J., Sturgess R., Healey C., Yeoman A., Gunasekera A.V.J., Kooner P., Kapur K., Sathyanarayana V., Kallis Y., Subhani J., Harvey R., McCorry R., Rooney P., Ramanaden D., Evans R., Mathialahan T., Gasem J., Shorrock C., Bhalme M., Southern P., Tibble J.A., Gorard D.A., Jones S., Mells G., Mulcahy V., Srivastava B., Foxton M.R., Collins C.E., Elphick D., Karmo M., Porras-Perez F., Mendall M., Yapp T., Patel M., Ede R., Sayer J., Jupp J., Fisher N., Carter M.J., Koss K., Shah J., Piotrowicz A., Scott G., Grimley C., Gooding I.R., Williams S., Tidbury J., Lim G., Cheent K., Levi S., Mansour D., Beckley M., Hollywood C., Wong T., Marley R., Ramage J., Gordon H.M., Ridpath J., Ngatchu T., Bob Grover V.P., Shidrawi R.G., Abouda G., Corless L., Narain M., Rees I., Brown A., Taylor-Robinson S., Wilkins J., Grellier L., Banim P., Das D., Heneghan M.A., Curtis H., Matthews H.C., Mohammed F., Aldersley M., Srirajaskanthan R., Walker G., McNair A., Sharif A., Sen S., Bird G., Prince M.I., Prasad G., Kitchen P., Barnardo A., Oza C., Sivaramakrishnan N.N., Gupta P., Shah A., Evans C.D.J., Saha S., Pollock K., Bramley P., Mukhopadhya A., Barclay S.T., McDonald N., Bathgate A.J., Palmer K., Dillon J.F., Rushbrook S.M., Przemioslo R., McDonald C., Millar A., Tai C., Mitchell S., Metcalf J., Shaukat S., Ninkovic M., Shmueli U., Davis A., Naqvi A., Lee T.J.W., Ryder S., Collier J., Klass H., Cramp M.E., Sharer N., Aspinall R., Ghosh D., Douds A.C., Booth J., Williams E., Hussaini H., Christie J., Mann S., Thorburn D., Marshall A., Patanwala I., Ala A., Maltby J., Matthew R., Corbett C., Vyas S., Singhal S., Gleeson D., Misra S., Butterworth J., George K., Harding T., Douglass A., Mitchison H., Panter S., Shearman J., Bray G., Roberts M., Butcher G., Forton D., Mahmood Z., Cowan M., Ch'ng C.L., Rahman M., Whatley G.C.A., Wesley E., Mandal A., Jain S., Pereira S.P., Wright M., Trivedi P., Gordon F.H., Unitt E., Palejwala A., Austin A., Vemala V., Grant A., Higham A.D., Brind A., Mathew R., Cox M., Ramakrishnan S., King A., Whalley S., Fraser J., Thomson S.J., Bell A., Wong V.S., Kia R., Gee I., Keld R., Ransford R., Gotto J., and Millson C.
- Subjects
PBC - Abstract
It has come to our attention that the name of one of the authors in our manuscript was incorrectly spelled ‘Jinyoung Byan’; the correct spelling is ‘Jinyoung Byun’ as in the author list above. In addition, the excel files of the supplementary tables were not included during the online publication of our article. These have now been made available online. We apologize for any inconvenience caused.
- Published
- 2022
99. Simulating the neutrino flux from the Spallation Neutron Source for the COHERENT experiment
- Author
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Akimov, D., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Bernardi, I., Blackston, M. A., Bock, C., Bolozdynya, A., Browning, J., Cabrera-Palmer, B., Chernyak, D., Conley, E., Daughhetee, J., Detwiler, J., Ding, K., Durand, M. R., Efremenko, Y., Elliott, S. R., Fabris, L., Febbraro, M., Galambos, J., Gallo Rosso, A., Galindo-Uribarri, A., Green, M. P., Heath, M. R., Hedges, S., Hoang, D., Hughes, M., Iverson, E., Johnson, T., Khromov, A., Konovalov, A., Kozlova, E., Kumpan, A., Li, L., Link, J. M., Liu, J., Mann, K., Markoff, D. M., Mastroberti, J., McIntyre, M., Mueller, P. E., Newby, J., Parno, D. S., Penttila, S. I., Pershey, D., Rapp, R., Ray, H., Raybern, J., Razuvaeva, O., Reyna, D., Rich, G. C., Rimal, D., Ross, J., Rudik, D., Runge, J., Salvat, D. J., Salyapongse, A. M., Scholberg, K., Shakirov, A., Simakov, G., Sinev, G., Snow, W. M., Sosnovstsev, V., Suh, B., Tayloe, R., Tellez-Giron-Flores, K., Tolstukhin, I., Trotter, S., Ujah, E., Vanderwerp, J., Varner, R. L., Virtue, C. J., Visser, G., Wongjirad, T., Yen, Y.R., Yoo, J., Yu, C.H., Zettlemoyer, J., and Zhang, S.
- Abstract
The Spallation Neutron Source (SNS) at Oak Ridge National Laboratory is a pulsed source of neutrons and, as a by-product of this operation, an intense source of pulsed neutrinos via stopped-pion decay. The COHERENT collaboration uses this source to investigate coherent elastic neutrino-nucleus scattering and other physics with a suite of detectors. This work includes a description of our geant4 simulation of neutrino production at the SNS and the flux calculation which informs the COHERENT studies. We estimate the uncertainty of this calculation at the ∼10% level based on validation against available low-energy π+ production data.
- Published
- 2022
100. COHERENT constraint on leptophobic dark matter using CsI data
- Author
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Akimov, D., primary, An, P., additional, Awe, C., additional, Barbeau, P. S., additional, Becker, B., additional, Belov, V., additional, Bernardi, I., additional, Blackston, M. A., additional, Bock, C., additional, Bolozdynya, A., additional, Bouabid, R., additional, Browning, J., additional, Cabrera-Palmer, B., additional, Chernyak, D., additional, Conley, E., additional, Daughhetee, J., additional, Detwiler, J., additional, Ding, K., additional, Durand, M. R., additional, Efremenko, Y., additional, Elliott, S. R., additional, Fabris, L., additional, Febbraro, M., additional, Gallo Rosso, A., additional, Galindo-Uribarri, A., additional, Green, M. P., additional, Heath, M. R., additional, Hedges, S., additional, Hoang, D., additional, Hughes, M., additional, Johnson, B. A., additional, Johnson, T., additional, Khromov, A., additional, Konovalov, A., additional, Kozlova, E., additional, Kumpan, A., additional, Li, L., additional, Link, J. M., additional, Liu, J., additional, Major, A., additional, Mann, K., additional, Markoff, D. M., additional, Mastroberti, J., additional, Mattingly, J., additional, Mueller, P. E., additional, Newby, J., additional, Parno, D. S., additional, Penttila, S. I., additional, Pershey, D., additional, Prior, C., additional, Rapp, R., additional, Ray, H., additional, Razuvaeva, O., additional, Reyna, D., additional, Rich, G. C., additional, Ross, J., additional, Rudik, D., additional, Runge, J., additional, Salvat, D. J., additional, Salyapongse, A. M., additional, Sander, J., additional, Scholberg, K., additional, Shakirov, A., additional, Simakov, G., additional, Snow, W. M., additional, Sosnovstsev, V., additional, Suh, B., additional, Tayloe, R., additional, Tellez-Giron-Flores, K., additional, Tolstukhin, I., additional, Ujah, E., additional, Vanderwerp, J., additional, Varner, R. L., additional, Virtue, C. J., additional, Visser, G., additional, Wongjirad, T., additional, Yen, Y.-R., additional, Yoo, J., additional, Yu, C.-H., additional, and Zettlemoyer, J., additional
- Published
- 2022
- Full Text
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