Liquid noble gas detectors for low energy particle physics
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We review the current status of liquid noble gas radiation detectors with energy threshold in the keV range, wich are of interest for direct dark matter searches, measurement of coherent neutrino scattering and other low energy particle physics experiments. Emphasis is given to the operation principles and the most important instrumentation aspects of these detectors, principally of those operated in the double-phase mode. Recent technological advances and relevant developments in photon detection and charge readout are discussed in the context of their applicability to those experiments.
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Measurement of the scintillation resolution in liquid xenon and its impact for future segmented calorimeters
Experimental measurement finds 3.7% scintillation resolution at 511 keV in liquid xenon using high-PDE SiPMs, close to the 2.8% Poisson limit and compatible with 1.8% theoretical intrinsic resolution.
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