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Search for Two-neutrino Double-Beta Decay of ¹³⁶rm Xe to the 0^+₁ excited state of ¹³⁶rm Ba with the Complete EXO-200 Dataset

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arxiv 2303.01103 v2 pith:N2FJCART submitted 2023-03-02 hep-ex nucl-ex

Search for Two-neutrino Double-Beta Decay of ¹³⁶rm Xe to the 0^+₁ excited state of ¹³⁶rm Ba with the Complete EXO-200 Dataset

classification hep-ex nucl-ex
keywords betadecaystatedatasetexo-200confidencedouble-betaexcited
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A new search for two-neutrino double-beta ($2\nu\beta\beta$) decay of $^{136}\rm Xe$ to the $0^+_1$ excited state of $^{136}\rm Ba$ is performed with the full EXO-200 dataset. A deep learning-based convolutional neural network is used to discriminate signal from background events. Signal detection efficiency is increased relative to previous searches by EXO-200 by more than a factor of two. With the addition of the Phase II dataset taken with an upgraded detector, the median 90$\%$ confidence level half-life sensitivity of $2\nu\beta\beta$ decay to the $0^+_1$ state of $^{136}\rm Ba$ is $2.9 \times 10^{24}~\rm yr$ using a total $^{136}\rm Xe$ exposure of $234.1~\rm kg~yr$. No statistically significant evidence for $2\nu\beta\beta$ decay to the $0^+_1$ state is observed, leading to a lower limit of $T^{2\nu}_{1/2}(0^+ \rightarrow 0^+_1) > 1.4\times10^{24}~\rm yr$ at 90$\%$ confidence level, improved by 70$\%$ relative to the current world's best constraint.

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  1. Sensitivity of neutrinoless double beta decays from a combined analysis of ground and excited states

    hep-ph 2025-08 unverdicted novelty 5.0

    Combined analysis of 0νββ decays to ground and excited states can significantly enhance experimental sensitivity depending on NME predictions.