Nanomechanical resonator radiation sensors have new universal performance limits: optimal drive amplitude is much lower than the critical nonlinear amplitude, enabling quantified bandwidth gains at room temperature and simple detectivity equations under cryogenic cooling, with geometry rules that a_
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Data-driven design of 12-fold quasicrystal nanomechanical resonators achieves Q_m of approximately 10^7 and force sensitivity of 26.4 aN per square root Hz.
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Detectivity and bandwidth limits of cooled and uncooled light detection using nanomechanical resonators
Nanomechanical resonator radiation sensors have new universal performance limits: optimal drive amplitude is much lower than the critical nonlinear amplitude, enabling quantified bandwidth gains at room temperature and simple detectivity equations under cryogenic cooling, with geometry rules that a_
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Quasicrystal Architected Nanomechanical Resonators via Data-Driven Design
Data-driven design of 12-fold quasicrystal nanomechanical resonators achieves Q_m of approximately 10^7 and force sensitivity of 26.4 aN per square root Hz.