Liquid phase argon has long been used as a target medium for particle detection via scintillation light. Recently there has been considerable interest in direct detection of both hypothetical darkmatter particles and coherent elastic neutrino nucleus scattering. These as-yet unobserved neutral particle interactions are expected to result in a recoiling argon atom O(keV), generally referred to in the literature as a nuclear recoil. This prompts the question of the available electromagnetic signal in a liquid argon detector. In this Letter we report the first measurement of the ionization yield (Qy), detected electrons per unit energy, resulting from nuclear recoils in liquid argon, measured at 6.7 keV. This is also the lowest energy measurement of nuclear recoils in liquid argon.
Revised: June 3, 2014 |
Published: May 1, 2014
Citation
Joshi T., S. Sangiorgio, A. Bernstein, M.P. Foxe, C. Hagmann, I. Jovanovic, and K. Kazkaz, et al. 2014.First measurement of the ionization yield of nuclear recoils in liquid argon.Physical Review Letters 112, no. 17:Article No. 171303.PNNL-SA-100835.doi:10.1103/PhysRevLett.112.171303