A vacancy-counting calorimetric readout in paleo-detectors provides an event-by-event proxy for nuclear recoil species, suppressing neutron backgrounds and achieving spin-independent dark matter sensitivities of order 10^{-48} cm² at WIMP masses of tens of GeV.
Silicon carbide color centers for quantum applications,
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Hybrid perovskite quantum dots offer tunable room-temperature single-photon emission that may overcome purity and scalability limits of existing sources, while bright squeezed vacuum provides a path to multiplexable high-purity photons.
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Calorimetric approach to paleo-detection of dark matter
A vacancy-counting calorimetric readout in paleo-detectors provides an event-by-event proxy for nuclear recoil species, suppressing neutron backgrounds and achieving spin-independent dark matter sensitivities of order 10^{-48} cm² at WIMP masses of tens of GeV.
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Mechanisms and Opportunities for Tunable High-Purity Single Photon Emitters: A Review of Hybrid Perovskites and Prospects for Bright Squeezed Vacuum
Hybrid perovskite quantum dots offer tunable room-temperature single-photon emission that may overcome purity and scalability limits of existing sources, while bright squeezed vacuum provides a path to multiplexable high-purity photons.