A CW-driven doubly resonant degenerate OPO achieves passive mode-locking via bichromatic femtosecond dissipative quadratic solitons with 336 fs duration at 1572 nm and 5% conversion efficiency under 600 mW pump.
Consensus statement on Brillouin light scattering microscopy of biological materials,
10 Pith papers cite this work. Polarity classification is still indexing.
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Above a critical noise strength, operator scrambling in random circuits is suppressed leading to classical simulability; below it, simulation stays exponentially hard.
Metal-2DES junctions produce zero-bias photocurrent at oblique incidence due to asymmetric local field amplitudes from phase variations, enabling incidence direction reconstruction via tunable asymmetric plasmon modes.
Demonstration of stable Kerr soliton combs in ultra-compact spiral microresonators via thermal modeling and feedback stabilization.
Sparse sampling of reflectance with five strategically chosen near-IR bandpass filters combined with a multivariate Gaussian model enables non-destructive thickness mapping of 3R-MoS2 on PDMS up to 691 nm with average 8.3 nm 95% CI width.
SoLo is a non-iterative single-frame super-resolution method for fluorescence imaging that infers source positions through sampling-detection, preserving intensity linearity for real-time quantitative analysis.
Hybrid pulsed-CW architecture for optical quantum computation with experimental proof-of-principle of ultrafast homodyne detection on pulsed single-photon states yielding W(0,0) = -0.153.
A new class of superconducting tunable resonators enables fast, low-loss magnetometry at milli-kelvin temperatures with MHz sampling rates.
Correlates calculated metalens-antenna coupling efficiency with measured DSB noise temperature in a 1.63 THz HEB mixer and benchmarks against an elliptical lens.
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Noise-induced Simulability Transition from Operator Scrambling
Above a critical noise strength, operator scrambling in random circuits is suppressed leading to classical simulability; below it, simulation stays exponentially hard.
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Hybridization of pulse and continuous-wave based optical quantum computation
Hybrid pulsed-CW architecture for optical quantum computation with experimental proof-of-principle of ultrafast homodyne detection on pulsed single-photon states yielding W(0,0) = -0.153.