TY - JOUR
T1 - First application of a liquid argon time projection chamber for the search for intranuclear neutron-antineutron transitions and annihilation in 40Ar using the MicroBooNE detector
AU - MicroBooNE Collaboration
AU - Abratenko, P.
AU - Alterkait, O.
AU - Andrade Aldana, D.
AU - Arellano, L.
AU - Asaadi, J.
AU - Ashkenazi, A.
AU - Balasubramanian, S.
AU - Baller, B.
AU - Barr, G.
AU - Barrow, D.
AU - Barrow, J.
AU - Basque, V.
AU - Benevides Rodrigues, O.
AU - Berkman, S.
AU - Bhanderi, A.
AU - Bhat, A.
AU - Bhattacharya, M.
AU - Bishai, M.
AU - Blake, A.
AU - Bogart, B.
AU - Bolton, T.
AU - Book, J. Y.
AU - Camilleri, L.
AU - Cao, Y.
AU - Caratelli, D.
AU - Caro Terrazas, I.
AU - Cavanna, F.
AU - Cerati, G.
AU - Chen, Y.
AU - Conrad, J. M.
AU - Convery, M.
AU - Cooper-Troendle, L.
AU - Crespo-Anadón, J. I.
AU - Cross, R.
AU - Del Tutto, M.
AU - Dennis, S. R.
AU - Detje, P.
AU - Devitt, A.
AU - Diurba, R.
AU - Djurcic, Z.
AU - Dorrill, R.
AU - Duffy, K.
AU - Dytman, S.
AU - Eberly, B.
AU - Englezos, P.
AU - Ereditato, A.
AU - Evans, J. J.
AU - Fine, R.
AU - Finnerud, O. G.
AU - Soderberg, M.
N1 - Publisher Copyright:
© 2024 The Author(s).
PY - 2024/7/1
Y1 - 2024/7/1
N2 - We present a novel methodology to search for intranuclear neutron-antineutron transition (n → n̄) followed by n̄-nucleon annihilation within an 40Ar nucleus, using the MicroBooNE liquid argon time projection chamber (LArTPC) detector. A discovery of n → n̄ transition or a new best limit on the lifetime of this process would either constitute physics beyond the Standard Model or greatly constrain theories of baryogenesis, respectively. The approach presented in this paper makes use of deep learning methods to select n → n̄ events based on their unique features and differentiate them from cosmogenic backgrounds. The achieved signal and background efficiencies are (70.22 ± 6.04)% and (0.0020 ± 0.0003)%, respectively. A demonstration of a search is performed with a data set corresponding to an exposure of 3.32 × 1026 neutron-years, and where the background rate is constrained through direct measurement, assuming the presence of a negligible signal. With this approach, no excess of events over the background prediction is observed, setting a demonstrative lower bound on the n → n̄ lifetime in 40Ar of τm ≳ 1.1 × 1026 years, and on the free n → n̄ transition time of τn→n̄ ≳ 2.6 × 105 s, each at the 90% confidence level. This analysis represents a first-ever proof-of-principle demonstration of the ability to search for this rare process in LArTPCs with high efficiency and low background.
AB - We present a novel methodology to search for intranuclear neutron-antineutron transition (n → n̄) followed by n̄-nucleon annihilation within an 40Ar nucleus, using the MicroBooNE liquid argon time projection chamber (LArTPC) detector. A discovery of n → n̄ transition or a new best limit on the lifetime of this process would either constitute physics beyond the Standard Model or greatly constrain theories of baryogenesis, respectively. The approach presented in this paper makes use of deep learning methods to select n → n̄ events based on their unique features and differentiate them from cosmogenic backgrounds. The achieved signal and background efficiencies are (70.22 ± 6.04)% and (0.0020 ± 0.0003)%, respectively. A demonstration of a search is performed with a data set corresponding to an exposure of 3.32 × 1026 neutron-years, and where the background rate is constrained through direct measurement, assuming the presence of a negligible signal. With this approach, no excess of events over the background prediction is observed, setting a demonstrative lower bound on the n → n̄ lifetime in 40Ar of τm ≳ 1.1 × 1026 years, and on the free n → n̄ transition time of τn→n̄ ≳ 2.6 × 105 s, each at the 90% confidence level. This analysis represents a first-ever proof-of-principle demonstration of the ability to search for this rare process in LArTPCs with high efficiency and low background.
KW - Data analysis; Image processing
KW - double-phase)
KW - ionization
KW - Noble liquid detectors (scintillation
KW - Time projection Chambers (TPC)
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UR - http://www.scopus.com/inward/citedby.url?scp=85200598885&partnerID=8YFLogxK
U2 - 10.1088/1748-0221/19/07/P07032
DO - 10.1088/1748-0221/19/07/P07032
M3 - Article
AN - SCOPUS:85200598885
SN - 1748-0221
VL - 19
JO - Journal of Instrumentation
JF - Journal of Instrumentation
IS - 7
M1 - P07032
ER -