Speaker
Description
The COHERENT collaboration has measured coherent elastic neutrino-nucleus scattering (CEvNS) on CsI, argon, and most recently germanium. While efforts are underway to obtain precision measurements of CEvNS on NaI and argon with new tonne-scale detectors, the opportunity of measuring CEvNS on other liquid noble targets with the existing CENNS-10 detector is now present.
A CEvNS measurement on neon will serve as a clean probe of the Standard Model, complementing current measurements of the $N^2$ dependence of the CEvNS cross-section. Neon benefits from lower systematic uncertainties due to its small nuclear form factor as well as from having zero axial vector contributions from unpaired nucleons. Neon also contains no long-lived radioisotopes, yielding lower intrinsic backgrounds.
We present MCNP analysis of a setup for a quenching factor measurement on liquid neon at the TUNL facility. A status of deployment efforts is also presented.