Search Results - "Saffold, N."

Passivation of Si(Li) detectors operated above cryogenic temperatures for space-based applications by Saffold, N., Rogers, F., Xiao, M., Bhatt, R., Erjavec, T., Fuke, H., Hailey, C.J., Kozai, M., Kraych, D., Martinez, E., Melo-Carrillo, C., Perez, K., Rodriguez, C., Shimizu, Y., Smallshaw, B.

“…This work evaluates the viability of polyimide and parylene-C for passivation of lithium-drifted silicon (Si(Li)) detectors. The passivated Si(Li) detectors…”
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Statistical investigation of the large-area Si(Li) detectors mass-produced for the GAPS experiment by Kozai, M., Tokunaga, K., Fuke, H., Yamada, M., Hailey, C.J., Kato, C., Kraych, D., Law, M., Martinez, E., Munakata, K., Perez, K., Rogers, F., Saffold, N., Shimizu, Y., Tokuda, K., Xiao, M.

“…The lithium-drifted silicon (Si(Li)) detector developed for the General Antiparticle Spectrometer (GAPS) experiment features a thick (∼2.2 mm) sensitive layer,…”
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The antinucleus annihilation reconstruction algorithm of the GAPS experiment by Munini, R., Vannuccini, E., Boezio, M., von Doetinchem, P., Gerrity, C., Lenni, A., Marcelli, N., Quinn, S., Rogers, F., Ryan, J.L., Stoessl, A., Xiao, M., Saffold, N., Tiberio, A., Yamatani, M.

“…The General AntiParticle Spectrometer (GAPS) is an Antarctic balloon-borne detector designed to measure low-energy cosmic antinuclei (<0.25GeV/n), with a…”
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Confirmation of the spectral excess in DAMIC at SNOLAB with skipper CCDs by Aguilar-Arevalo, A, Arnquist, I, Avalos, N, Barak, L, Baxter, D, Bertou, X, Bloch, I. M, Botti, A. M, Cababie, M, Cancelo, G, Castelló-Mor, N, Cervantes-Vergara, B. A, Chavarria, A. E, Cortabitarte-Gutiérrez, J, Crisler, M, Cuevas-Zepeda, J, Dastgheibi-Fard, A, De Dominicis, C, Deligny, O, Drlica-Wagner, A, Duarte-Campderros, J, D'Olivo, J. C, Essig, R, Estrada, E, Estrada, J, Etzion, E, Favela-Perez, F, Gadola, N, Gaïor, R, Holland, S. E, Hossbach, T, Iddir, L, Kilminster, B, Korn, Y, Lantero-Barreda, A, Lawson, I, Lee, S, Letessier-Selvon, A, Loaiza, P, Lopez-Virto, A, Luoma, S, Marrufo-Villalpando, E, McGuire, K. J, Moroni, G. F, Munagavalasa, S, Norcini, D, Orly, A, Papadopoulos, G, Paul, S, Perez, S. E, Piers, A, Privitera, P, Robmann, P, Rodrigues, D, Saffold, N. A, Scorza, S, Settimo, M, Singal, A, Smida, R, Sofo-Haro, M, Stefanazzi, L, Stifter, K, Tiffenberg, J, Traina, M, Uemura, S, Vila, I, Vilar, R, Volansky, T, Warot, G, Yajur, R, Yu, T-T, Zopounidis, J-P

“…Phys. Rev. D 109, 062007 (2024) We present results from a 3.25 kg-day target exposure of two silicon charge-coupled devices (CCDs), each with 24 megapixels and…”
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Analysis of Mass-production Data of the GAPS Si(Li) Detectors using Data-mining Methods by Kozai, M., Tokunaga, K., Fuke, H., Erjavec, T., Hailey, C.J., Kato, C., Madden, N., Munakata, K., Perez, K., Rogers, F., Saffold, N., Shimizu, Y., Xiao, M.

“…New-type lithium-drifted silicon (Si(Li)) detectors have been developed and mass-produced to construct a large-volume silicon tracker for the General…”
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Development of Large-area Lithium-drifted Silicon Detectors for the GAPS Experiment by Kozai, M., Fuke, H., Yamada, M., Erjavec, T., Hailey, C. J., Kato, C., Madden, N., Munakata, K., Perez, K., Rogers, F., Saffold, N., Shimizu, Y., Tokuda, K., Xiao, M.

“…We have developed large-area lithium-drifted silicon (Si(Li)) detectors to meet the unique requirements of the General Antiparticle Spectrometer (GAPS)…”
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Developing a mass-production model of large-area Si(Li) detectors with high operating temperatures by Kozai, M., Fuke, H., Yamada, M., Perez, K., Erjavec, T., Hailey, C.J., Madden, N., Rogers, F., Saffold, N., Seyler, D., Shimizu, Y., Tokuda, K., Xiao, M.

“…This study presents a fabrication process for lithium-drifted silicon (Si(Li)) detectors that, compared to previous methods, allows for mass production at a…”
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Sensitivity of the GAPS experiment to low-energy cosmic-ray antiprotons by Rogers, F., Aramaki, T., Boezio, M., Boggs, S. E., Bonvicini, V., Bridges, G., Campana, D., Craig, W. W., von Doetinchem, P., Everson, E., Fabris, L., Feldman, S., Fuke, H., Gahbauer, F., Gerrity, C., Hailey, C. J., Hayashi, T., Kawachi, A., Kozai, M., Lenni, A., Lowell, A., Manghisoni, M., Marcelli, N., Mochizuki, B., Mognet, S. A.I., Munakata, K., Munini, R., Nakagami, Y., Olson, J., Ong, R. A., Osteria, G., Perez, K. M., Quinn, S., Re, V., Riceputi, E., Roach, B., Ryan, J., Saffold, N., Scotti, V., Shimizu, Y., Sparvoli, R., Stoessl, A., Tiberio, A., Vannuccini, E., Wada, T., Xiao, M., Yamatani, M., Yee, K., Yoshida, A., Yoshida, T., Zampa, G., Zeng, J., Zweerink, J.

“…The General Antiparticle Spectrometer (GAPS) is an upcoming balloon mission to measure low-energy cosmic-ray antinuclei during at least three ~35-day Antarctic…”
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Constraints on the electron-hole pair creation energy and Fano factor below 150 eV from Compton scattering in a Skipper-CCD by Botti, A. M, Uemura, S, Moroni, G. Fernandez, Barak, L, Cababie, M, Essig, R, Etzion, E, Rodrigues, D, Saffold, N, Haro, M. Sofo, Tiffenberg, J, Volansky, T

“…Fully-depleted thick silicon Skipper-charge-coupled devices (Skipper-CCDs) are an important technology to probe neutrino and light-dark-matter interactions due…”
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Statistical investigation of the large-area Si(Li) detectors mass-produced for the GAPS experiment by Kozai, M, Tokunaga, K, Fuke, H, Yamada, M, Hailey, C. J, Kato, C, Kraych, D, Law, M, Martinez, E, Munakata, K, Perez, K, Rogers, F, Saffold, N, Shimizu, Y, Tokuda, K, Xiao, M

“…The lithium-drifted silicon (Si(Li)) detector developed for the General Antiparticle Spectrometer (GAPS) experiment features a thick (~2.2 mm) sensitive layer,…”
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The antinucleus annihilation reconstruction algorithm of the GAPS experiment by Munini, R, Vannuccini, E, Boezio, M, von Doetinchem, P, Gerrity, C, Lenni, A, Marcelli, N, Quinn, S, Rogers, F, Ryan, J. L, Stoessl, A, Xiao, M, Saffold, N, Tiberio, A, Yamatani, M

“…Astroparticle Physics, Volume 133, December 2021, 102640 The General AntiParticle Spectrometer (GAPS) is an Antarctic balloon-borne detector designed to…”
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GAPS contributions to the 38th International Cosmic Ray Conference (Nagoya 2023) by Aramaki, T, Boezio, M, Boggs, S. E, Bonvicini, V, Bridges, G, Campana, D, Craig, W. W, von Doetinchem, P, Everson, E, Fabris, L, Feldman, S, Fuke, H, Gahbauer, F, Gerrity, C, Ghislotti, L, Hailey, C. J, Hayashi, T, Kawachi, A, Kozai, M, Lazzaroni, P, Law, M, Lenni, A, Lowell, A, Manghisoni, M, Marcelli, N, Mizukoshi, K, Mocchiutti, E, Mochizuki, B, Mognet, S. A. I, Munakata, K, Munini, R, Okazaki, S, Olson, J, Ong, R. A, Osteria, G, Perez, K, Perfetto, F, Quinn, S, Re, V, Riceputi, E, Roach, B, Rogers, F, Ryan, J. L, Saffold, N, Scotti, V, Shimizu, Y, Shutt, K, Sparvoli, R, Stoessl, A, Tiberio, A, Vannuccini, E, Xiao, M, Yamatani, M, Yee, K, Yoshida, T, Zampa, G, Zeng, J, Zweerink, J

“…Compilation of papers presented by the GAPS Collaboration at the 38th International Cosmic Ray Conference (ICRC), held July 26 through August 3, 2023 in…”
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Developing a mass-production model of large-area Si(Li) detectors with high operating temperatures by Kozai, M, Fuke, H, Yamada, M, Perez, K, Erjavec, T, Hailey, C. J, Madden, N, Rogers, F, Saffold, N, Seyler, D, Shimizu, Y, Tokuda, K, Xiao, M

“…This study presents a fabrication process for lithium-drifted silicon (Si(Li)) detectors that, compared to previous methods, allows for mass production at a…”
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Development of Large-area Lithium-drifted Silicon Detectors for the GAPS Experiment by Kozai, M, Fuke, H, Yamada, M, Erjavec, T, Hailey, C. J, Kato, C, Madden, N, Munakata, K, Perez, K, Rogers, F, Saffold, N, Shimizu, Y, Tokuda, K, Xiao, M

“…We have developed large-area lithium-drifted silicon (Si(Li)) detectors to meet the unique requirements of the General Antiparticle Spectrometer (GAPS)…”
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Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment by 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, Zweerink, J

“…The General Antiparticle Spectrometer (GAPS) is an Antarctic balloon experiment designed for low-energy (0.1$-$0.3 GeV/$n$) cosmic antinuclei as signatures of…”
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Cosmic-ray Antinuclei as Messengers of New Physics: Status and Outlook for the New Decade by von Doetinchem, P, Perez, K, Aramaki, T, Baker, S, Barwick, S, Bird, R, Boezio, M, Boggs, S. E, Cui, M, Datta, A, Donato, F, Evoli, C, Fabris, L, Fabbietti, L, Bueno, E. Ferronato, Fornengo, N, Fuke, H, Gerrity, C, Coral, D. Gomez, Hailey, C, Hooper, D, Kachelriess, M, Korsmeier, M, Kozai, M, Lea, R, Li, N, Lowell, A, Manghisoni, M, Moskalenko, I. V, Munini, R, Naskret, M, Nelson, T, Ng, K. C. Y, Nozzoli, F, Oliva, A, Ong, R. A, Osteria, G, Pierog, T, Poulin, V, Profumo, S, Poeschl, T, Quinn, S, Re, V, Rogers, F, Ryan, J, Saffold, N, Sakai, K, Salati, P, Schael, S, Serksnyte, L, Shukla, A, Stoessl, A, Tjemsland, J, Vannuccini, E, Vecchi, M, Winkler, M. W, Wright, D, Xiao, M, Xu, W, Yoshida, T, Zampa, G, Zuccon, P

“…JCAP08(2020)035 The precise measurement of cosmic-ray antinuclei serves as an important means for identifying the nature of dark matter and other new…”
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GAPS: Searching for Dark Matter using Antinuclei in Cosmic Rays by Bird, R, Aramaki, T, Boezio, M, Boggs, S. E, Bonvicini, V, Campana, D, Craig, W. W, Everson, E, Fabris, L, Fuke, H, Gahbauer, F, Garcia, I, Gerrity, C, Hailey, C. J, Hayashi, T, Kato, C, Kawachi, A, Kondo, M, Kozai, M, Lowell, A, Manghisoni, M, Marcelli, N, Martucci, M, Mognet, S. I, Munakata, K, Munini, R, Okazaki, S, Olson, J, Ong, R. A, Osteria, G, Perez, K, Quinn, S, Re, V, Riceputi, E, Rogers, F, Ryan, J. L, Saffold, N, Scotti, V, Shimizu, Y, Sparvoli, R, Stoessl, A, Takeuchi, S, Vannuccini, E, von Doetinchem, P, Wada, T, Xiao, M, Yoshida, A, Yoshida, T, Zampa, G, Zweerink, J

“…The General Antiparticle Spectrometer (GAPS) will carry out a sensitive dark matter search by measuring low-energy ($\mathrm{E} < 0.25 \mathrm{GeV/nucleon}$)…”
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GAPS, low-energy antimatter for indirect dark-matter search by Vannuccini, E, Aramaki, T, Bird, R, Boezio, M, Boggs, S. E, Bonvicini, V, Campana, D, Craig, W. W, von Doetinchem, P, Everson, E, Fabris, L, Gahbauer, F, Gerrity, C, Fuke, H, Hailey, C. J, Hayashi, T, Kato, C, Kawachi, A, Kozai, M, Lowell, A, Martucci, M, Mognet, S. I, Munini, R, Munakata, K, Okazaki, S, Ong, R. A, Osteria, G, Perez, K, Quinn, S, Ryan, J, Re, V, Rogers, F, Saffold, N, Shimizu, Y, Sparvoli, R, Stoessl, A, Yoshida, A, Yoshida, T, Zampa, G, Zweerink, J

“…The General Antiparticle Spectrometer (GAPS) is designed to carry out indirect dark matter search by measuring low-energy cosmic-ray antiparticles. Below a few…”
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GAPS: A New Cosmic Ray Anti-matter Experiment by Quinn, S, Aramaki, T, Bird, R, Boezio, M, Boggs, S. E, Bonvicini, V, Campana, D, Craig, W. W, von Doetinchem, P, Everson, E, Fabris, L, Gahbauer, F, Gerrity, C, Fuke, H, Hailey, C. J, Hayashi, T, Kato, C, Kawachi, A, Kozai, M, Lowell, A, Martucci, M, Mognet, S. I, Munini, R, Munakata, K, Okazaki, S, Ong, R. A, Osteria, G, Perez, K, Ryan, J, Re, V, Rogers, F, Saffold, N, Shimizu, Y, Sparvoli, R, Stoessl, A, Vannuccini, E, Yoshida, A, Yoshida, T, Zampa, G, Zweerink, J

“…The General AntiParticle Spectrometer (GAPS) is a balloon-borne instrument designed to detect cosmic-ray antimatter using the novel exotic atom technique,…”
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The GAPS Experiment to Search for Dark Matter using Low-energy Antimatter by 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, Zweerink, J

“…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…”
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