Observation of low-lying isomeric states in 136Cs with implications for solar neutrino detection

ORAL

Abstract

We report new measurements establishing the existence of low-lying isomeric states in 136Cs. These measurements are carried out at the TUNL Tandem Laboratory 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. We compare our results with shell model calculations and recent experimental results from 138Ba(d,alpha)136Cs reactions.

*This work was supported by the U.S. Department of Energy Office of Science under contract number DE-AC02-05CH11231, grant no. DE-FG02-97ER41033, and by DOE-NP grant DESC0023053. B. L. was supported by the Department of Energy, Laboratory Directed Research and Development program at SLAC National Accelerator Laboratory, under contract DE-AC02-76F00515 as part of the Panofsky Fellowship.

Publication: S. J. Haselschwardt et al., Phys. Rev. Lett. 131, 052502 (2023)

Presenters

  • Timothy V Daniels

    • University of North Carolina Wilmington

Authors

  • Timothy V Daniels

    • University of North Carolina Wilmington

  • Scott Haselschwardt

    • Lawrence Berkeley National Laboratory

  • Brian G Lenardo

    • SLAC National Accelerator Laboratory

  • Sean Finch

    • Duke University and TUNL

  • Forrest Q Friesen

    • Triangle Universities Nuclear Laboratory

  • Calvin R Howell

    • Duke University

  • Collin R Malone

    • Duke University

  • Ethan Mancil

    • Duke University

  • Werner Tornow

    • Duke University