Measurement of the low-energy quenching factor in germanium using an 88Y/Be photoneutron source

Abstract

We employ an 88Y/Be photoneutron source to derive the quenching factor for neutron-induced nuclear recoils in germanium, probing recoil energies from a few hundred eVnr to 8.5keVnr. A comprehensive Monte Carlo simulation of our setup is compared to experimental data employing a Lindhard model with a free electronic energy loss k and an adiabatic correction for sub-keVnr nuclear recoils. The best fit k=0.179 0.001 obtained using a Monte Carlo Markov Chain (MCMC) ensemble sampler is in good agreement with previous measurements, confirming the adequacy of the Lindhard model to describe the stopping of few-keV ions in germanium crystals at a temperature of 77 K. This value of k corresponds to a quenching factor of 13.7 % to 25.3 % for nuclear recoil energies between 0.3 keVnr and 8.5 keVnr, respectively.