1. Search for a Neutron Dark Decay in ^{6}He.
- Author
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Le Joubioux M, Savajols H, Mittig W, Fléchard X, Hayen L, Penionzhkevich YE, Ackermann D, Borcea C, Caceres L, Delahaye P, Didierjean F, Franchoo S, Grillet A, Jacquot B, Lebois M, Ledoux X, Lecesne N, Liénard E, Lukyanov S, Naviliat-Cuncic O, Piot J, Singh A, Smirnov V, Stodel C, Testov D, Thisse D, Thomas JC, and Verney D
- Abstract
Neutron dark decays have been suggested as a solution to the discrepancy between bottle and beam experiments, providing a dark matter candidate that can be searched for in halo nuclei. The free neutron in the final state following the decay of ^{6}He into ^{4}He+n+χ provides an exceptionally clean detection signature when combined with a high efficiency neutron detector. Using a high-intensity ^{6}He^{+} beam at Grand Accélérateur National d'Ions Lourds, a search for a coincident neutron signal resulted in an upper limit on a dark decay branching ratio of Br_{χ}≤4.0×10^{-10} (95% C.L.). Using the dark neutron decay model proposed originally by Fornal and Grinstein, we translate this into an upper bound on a dark neutron branching ratio of O(10^{-5}), improving over global constraints by one to several orders of magnitude depending on m_{χ}.
- Published
- 2024
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