Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment

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 dark matter annihilation or decay. GAPS is optimized to detect low-energy antideuterons, as well as to provide unprecedented sensitivity to low-e...

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Published in:Astroparticle Physics
Main Authors: 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.
Other Authors: 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.
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Antihelium nuclei
Antiparticle
Balloon-borne instrumentation
Cosmic ray
Dark matter
GAPS
Antarctic
Antarc*
Online Access:https://hdl.handle.net/11588/922527
https://doi.org/10.1016/j.astropartphys.2021.102580
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author 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.
author2 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.
author_facet 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.
author_sort Saffold N.
collection IRIS Università degli Studi di Napoli Federico II
container_start_page 102580
container_title Astroparticle Physics
container_volume 130
description 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 dark matter annihilation or decay. GAPS is optimized to detect low-energy antideuterons, as well as to provide unprecedented sensitivity to low-energy antiprotons and antihelium nuclei. The novel GAPS antiparticle detection technique, based on the formation, decay, and annihilation of exotic atoms, provides greater identification power for these low-energy antinuclei than previous magnetic spectrometer experiments. This work reports the sensitivity of GAPS to detect antihelium-3 nuclei, based on full instrument simulation, event reconstruction, and realistic atmospheric influence simulations. The report of antihelium nuclei candidate events by AMS-02 has generated considerable interest in antihelium nuclei as probes of dark matter and other beyond the Standard Model theories. GAPS is in a unique position to detect or set upper limits on the cosmic antihelium nuclei flux in an energy range that is essentially free of astrophysical background. In three 35-day long-duration balloon flights, GAPS will be sensitive to an antihelium flux on the level of 1.3−1.2+4.5·10−6 m-2sr-1s-1(GeV/n)-1 (95% confidence level) in the energy range of 0.11–0.3 GeV/n, opening a new window on rare cosmic physics.
format Article in Journal/Newspaper
genre Antarc*
Antarctic
genre_facet Antarc*
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op_doi https://doi.org/10.1016/j.astropartphys.2021.102580
op_relation info:eu-repo/semantics/altIdentifier/wos/WOS:000645622800005
volume:130
firstpage:102580
journal:ASTROPARTICLE PHYSICS
https://hdl.handle.net/11588/922527
doi:10.1016/j.astropartphys.2021.102580
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spelling ftunivnapoliiris:oai:www.iris.unina.it:11588/922527 2025-01-16T19:25:50+00:00 Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment 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. 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. 2021 https://hdl.handle.net/11588/922527 https://doi.org/10.1016/j.astropartphys.2021.102580 eng eng info:eu-repo/semantics/altIdentifier/wos/WOS:000645622800005 volume:130 firstpage:102580 journal:ASTROPARTICLE PHYSICS https://hdl.handle.net/11588/922527 doi:10.1016/j.astropartphys.2021.102580 info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-85103948657 Antihelium nuclei Antiparticle Balloon-borne instrumentation Cosmic ray Dark matter GAPS info:eu-repo/semantics/article 2021 ftunivnapoliiris https://doi.org/10.1016/j.astropartphys.2021.102580 2024-06-17T15:19:21Z 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 dark matter annihilation or decay. GAPS is optimized to detect low-energy antideuterons, as well as to provide unprecedented sensitivity to low-energy antiprotons and antihelium nuclei. The novel GAPS antiparticle detection technique, based on the formation, decay, and annihilation of exotic atoms, provides greater identification power for these low-energy antinuclei than previous magnetic spectrometer experiments. This work reports the sensitivity of GAPS to detect antihelium-3 nuclei, based on full instrument simulation, event reconstruction, and realistic atmospheric influence simulations. The report of antihelium nuclei candidate events by AMS-02 has generated considerable interest in antihelium nuclei as probes of dark matter and other beyond the Standard Model theories. GAPS is in a unique position to detect or set upper limits on the cosmic antihelium nuclei flux in an energy range that is essentially free of astrophysical background. In three 35-day long-duration balloon flights, GAPS will be sensitive to an antihelium flux on the level of 1.3−1.2+4.5·10−6 m-2sr-1s-1(GeV/n)-1 (95% confidence level) in the energy range of 0.11–0.3 GeV/n, opening a new window on rare cosmic physics. Article in Journal/Newspaper Antarc* Antarctic IRIS Università degli Studi di Napoli Federico II Antarctic Astroparticle Physics 130 102580
spellingShingle Antihelium nuclei
Antiparticle
Balloon-borne instrumentation
Cosmic ray
Dark matter
GAPS
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.
Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
title Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
title_full Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
title_fullStr Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
title_full_unstemmed Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
title_short Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
title_sort cosmic antihelium-3 nuclei sensitivity of the gaps experiment
topic Antihelium nuclei
Antiparticle
Balloon-borne instrumentation
Cosmic ray
Dark matter
GAPS
topic_facet Antihelium nuclei
Antiparticle
Balloon-borne instrumentation
Cosmic ray
Dark matter
GAPS
url https://hdl.handle.net/11588/922527
https://doi.org/10.1016/j.astropartphys.2021.102580

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