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Impact of Low-Energy Response to Nuclear Recoils in Dark Matter Detectors

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arxiv 1512.00694 v2 pith:274VQW3A submitted 2015-12-02 physics.ins-det hep-ex

Impact of Low-Energy Response to Nuclear Recoils in Dark Matter Detectors

classification physics.ins-det hep-ex
keywords energynuclearrecoilsdetectiondetectordetectorselectronicgermanium
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report an absolute energy response function to electronic and nuclear recoils for germanium and liquid xenon detectors. As a result, we show that the detection energy threshold of nuclear recoils for a dual-phase xenon detector can be a few keV for a given number of detectable photoelectrons. We evaluate the average energy expended per electron-hole pair to be $\sim$3.32 eV, which sets a detection energy threshold of $\sim$2.15 keV for a germanium detector at 50 mini-Kelvin at 69 volts with a primary phonon frequency of 1 THz. The Fano factors of nuclear and electronic recoils that constrain the capability for discriminating nuclear recoils below 2-3 keV recoil energy for both technologies are different.

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