A simulation study designs an integrated photonic cavity for SPDC that predicts 90 doubly resonant frequency-mode pairs with 1.08 GHz average bandwidth, 51.9 GHz mean FSR, and 1.16 GHz/mW pair-generation efficiency, supported by a closed-form analytical link between classical cavity parameters and a
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Derives optimal time-dependent cavity linewidth modulations to maximize absorption and emission efficiency in spin ensemble memories, establishing an upper bound in the narrow bandwidth regime and a critical bandwidth threshold.
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Simulation-guided design of an integrated photonic cavity for frequency-multiplexed Spontaneous Parametric Down Conversion
A simulation study designs an integrated photonic cavity for SPDC that predicts 90 doubly resonant frequency-mode pairs with 1.08 GHz average bandwidth, 51.9 GHz mean FSR, and 1.16 GHz/mW pair-generation efficiency, supported by a closed-form analytical link between classical cavity parameters and a
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Optimal absorption and emission of itinerant fields into a spin ensemble memory
Derives optimal time-dependent cavity linewidth modulations to maximize absorption and emission efficiency in spin ensemble memories, establishing an upper bound in the narrow bandwidth regime and a critical bandwidth threshold.