2023
DOI: 10.1103/physrevlett.131.052502
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Observation of Low-Lying Isomeric States in Cs136 : A New Avenue for Dark Matter and Solar Neutrino Detection in Xenon Detectors

S. J. Haselschwardt,
B. G. Lenardo,
T. Daniels
et al.
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Cited by 5 publications
(2 citation statements)
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“…The signal generated in the detector is the combination of the outgoing electron and any γ rays or conversion electrons emitted as the Cs nucleus relaxes to its ground state. Recently, many new low-lying states in 136 Cs have been identified, several of which are isomeric and potentially can be used in filtering events [60]. As the reaction threshold Q of 136 Xe is low enough (lowest among all naturally occurring isotope of xenon), this reaction can be used to search for neutrinos from the solar carbon-nitrogen-oxygen (CNO) cycle [61,62], and can also provide a unique measurement of 7 Be neutrinos, which may enable novel measurements of temperature of the solar core With the mass excess of 136 Cs from our measurements combined with the mass value of 136 Xe measured at FSU Penning trap [33,52,64], we refined the Q value to be 79.1 (5) keV.…”
Section: Resultsmentioning
confidence: 99%
“…The signal generated in the detector is the combination of the outgoing electron and any γ rays or conversion electrons emitted as the Cs nucleus relaxes to its ground state. Recently, many new low-lying states in 136 Cs have been identified, several of which are isomeric and potentially can be used in filtering events [60]. As the reaction threshold Q of 136 Xe is low enough (lowest among all naturally occurring isotope of xenon), this reaction can be used to search for neutrinos from the solar carbon-nitrogen-oxygen (CNO) cycle [61,62], and can also provide a unique measurement of 7 Be neutrinos, which may enable novel measurements of temperature of the solar core With the mass excess of 136 Cs from our measurements combined with the mass value of 136 Xe measured at FSU Penning trap [33,52,64], we refined the Q value to be 79.1 (5) keV.…”
Section: Resultsmentioning
confidence: 99%
“…𝜈 e (or dark matter : 𝜒) + 136 Xe → e − + 136 Cs * (XeCC) is an available reaction channel at xenonbased experiments whose observables are recoil electrons and de-excitation 𝛾-rays from the excited state of 136 Cs [1]. Recentry, the low-lying isomeric states in 136 Cs * with lifetimes on the order of 100 ns were observed [2,3]. Therefore, one can conduct delayed-coincidence tagging of multiple time-correlated de-excitation 𝛾-rays using a ns-response detector like liquid scintillator.…”
Section: Introductionmentioning
confidence: 99%