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|Author(s):||W. H. Lippincott; Kevin J. Coakley; D. Gastler; A. Hime; E. Kearns; D. N. McKinsey; J. A. Nikkel; L. C. Stonehill;|
|Title:||Scintillation time dependence and pulse shape discrimination in liquid argon|
|Published:||March 02, 2010|
|Abstract:||Using a single-phase liquid argon detector with a signal yield of 4.85 photoelectrons per keV of electronic-equivalent recoil energy (keVee), we measure the scintillation time dependence of both electronic and nuclear recoils in liquid argon down to 5 keVee. We develop two methods of pulse shape discrimination to distinguish between electronic and nuclear recoils. Using one of these methods, we measure a background and statistics-limited level of electronic recoil contamination to be 7.6e-07 between 60 and 128 keVr for a nuclear recoil acceptance of 50%, with no nuclear recoil-like events above 72 keVr. Finally, we develop a maximum likelihood method of pulse shape discrimination using the measured scintillation time dependence and predict the sensitivity to WIMP-nucleon scattering in three configurations of a liquid argon dark matter detector.|
|Citation:||Physical Review C (Nuclear Physics)|
|Keywords:||argon,electronic recoil,nuclear recoil,pulse shape discrimination,scintillation light,stochastic modeling,time dependence.|