Observation of low-lying isomeric states in 136Cs: a new avenue for dark matter and solar neutrino detection in xenon detectors

Abstract

We report on new measurements establishing the existence of low-lying isomeric states in 136Cs using γ rays produced in 136Xe(p,n)136Cs reactions. Two states with O(100)~ns lifetimes are placed in the decay sequence of the 136Cs levels that are populated in charged-current interactions of solar neutrinos and fermionic dark matter with 136Xe. Xenon-based experiments can therefore exploit a delayed-coincidence tag of these interactions, greatly suppressing backgrounds to enable spectroscopic studies of solar neutrinos and dark matter.