Over the past few years,phonon detectors have emerged as a prevailing technology for detecting lowmass dark matter due to their low thresholds and high resolution.These detectors,which employ either dual-phase detecto...Over the past few years,phonon detectors have emerged as a prevailing technology for detecting lowmass dark matter due to their low thresholds and high resolution.These detectors,which employ either dual-phase detectors combining phonon-light or phonon-electron interactions,have significantly advanced direct dark matter detection efforts.Argon,as a low-background and high-reserve detection medium,has also played a crucial role in this field.Both liquid-argon single-phase detectors and gas-liquid two-phase time projection chambers(TPCs)have contributed substantially to the direct detection of high-mass dark matter.By integrating these distinct detector types,the upper limits of the corresponding mass cross-section in dark matter detection can be lowered.We propose a phonon detector utilizing solid argon as the absorber,which combines the advantages of both aforementioned detector types.However,due to the requirement for an ultra-low temperature environment in the tens of millikelvin(mK)range,experimental investigations of solid argon phonon detector performance are currently constrained by technical limitations.Therefore,the performance analysis of the solid argon phonon detector presented in this study is only based on sapphire phonon detectors.Although there may be discrepancies between this approximation and the actual performance,the intrinsic characteristics of phonon detectors permit a qualitative evaluation of the solid argon phonon detector's potential capabilities.展开更多
基金the National Key Research and Development Program of China(2017YFA0402203)the National Natural Science Foundation of China(12075161)。
文摘Over the past few years,phonon detectors have emerged as a prevailing technology for detecting lowmass dark matter due to their low thresholds and high resolution.These detectors,which employ either dual-phase detectors combining phonon-light or phonon-electron interactions,have significantly advanced direct dark matter detection efforts.Argon,as a low-background and high-reserve detection medium,has also played a crucial role in this field.Both liquid-argon single-phase detectors and gas-liquid two-phase time projection chambers(TPCs)have contributed substantially to the direct detection of high-mass dark matter.By integrating these distinct detector types,the upper limits of the corresponding mass cross-section in dark matter detection can be lowered.We propose a phonon detector utilizing solid argon as the absorber,which combines the advantages of both aforementioned detector types.However,due to the requirement for an ultra-low temperature environment in the tens of millikelvin(mK)range,experimental investigations of solid argon phonon detector performance are currently constrained by technical limitations.Therefore,the performance analysis of the solid argon phonon detector presented in this study is only based on sapphire phonon detectors.Although there may be discrepancies between this approximation and the actual performance,the intrinsic characteristics of phonon detectors permit a qualitative evaluation of the solid argon phonon detector's potential capabilities.
