Search for Double Beta Decays of 134Xe with EXO-200 Phase II
Abstract
EXO-200 was a leading double beta decay experiment consisting of a single-phase, enriched liquid xenon time projection chamber filled with an admixture of 80.672% 136Xe and 19.098% 134Xe. The detector operated at WIPP between 2010 and 2018 and was designed to search for double beta decay of 136Xe. Data was acquired in two phases separated by a period of detector upgrades. We report on the search for 0ββ and 2ββ decay of 134Xe with Phase II EXO-200 data, with median 90% C.L. exclusion sensitivity T1/20 ≥ 3.7× 1023 yr and T1/22 ≥ 2.6 × 1021 yr, respectively. No statistically significant signal is observed for either decay mode. We set a world-leading lower limit on the half-life of the neutrinoless decay mode of 134Xe of T1/20 ≥ 8.7×1023 (90% C.L.) and the second strongest constraint on the two-neutrino decay of T1/22 ≥ 2.9×1021 (90% C.L.), a 3-fold improvement over the EXO-200 Phase I measurement. New constraints are also set for the 2ββ and 0ββ decays of 134Xe to the lowest excited state of 134Ba.
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