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Measurement of light and charge yield of low-energy electronic recoils in liquid xenon

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arxiv 1611.10322 v1 pith:YCE7DEAM submitted 2016-11-30 astro-ph.IM physics.ins-det

Measurement of light and charge yield of low-energy electronic recoils in liquid xenon

classification astro-ph.IM physics.ins-det
keywords chargeliquidrecoilxenonyielddependenceenergiesfield
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The dependence of the light and charge yield of liquid xenon on the applied electric field and recoil energy is important for dark matter detectors using liquid xenon time projections chambers. Few measurements have been made of this field dependence at recoil energies less than 10 keV. In this paper we present results of such measurements using a specialized detector. Recoil energies are determined via the Compton coincidence technique at four drift fields relevant for liquid xenon dark matter detectors: 0.19, 0.48, 1.02, and 2.32 kV/cm. Mean recoil energies down to 1 keV were measured with unprecedented precision. We find that the charge and light yield are anti-correlated above 3 keV, and that the field dependence becomes negligible below 6 keV. However, below 3 keV we find a charge yield significantly higher than expectation and a reconstructed energy deviating from linearity.

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