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arxiv: 2311.00228 · v3 · pith:4GYMAXS6 · submitted 2023-11-01 · cond-mat.mes-hall · cond-mat.supr-con

Performance limits due to thermal transport in graphene single-photon bolometers

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classification cond-mat.mes-hall cond-mat.supr-con
keywords detectorgrapheneperformancethermalbolometersdistancephotonreadout
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In high-sensitivity bolometers and calorimeters, the photon absorption often occurs at a finite distance from the temperature sensor to accommodate antennas or avoid the degradation of superconducting circuitry exposed to radiation. As a result, thermal propagation from the input to the temperature readout can critically affect detector performance. In this report we model the performance of a graphene bolometer, accounting for electronic thermal diffusion and dissipation via electron-phonon coupling at low temperatures in three regimes: clean, supercollision, and resonant scattering. Our results affirm the feasibility of a superconducting readout without Cooper-pair breaking by mid- and near-infrared photons, and provide a recipe for designing graphene absorbers for calorimetric single-photon detectors. We investigate the tradeoff between the input-readout distance and detector efficiency, and predict an intrinsic timing jitter of ~2.7 ps. Based on our result, we propose a spatial-mode-resolving photon detector to increase communication bandwidth.

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