A Markov chain transition matrix yields the steady-state actuator and frequency distributions for digitally stabilized lasers, exact for white noise with decorrelated sampling and with predictable deviations otherwise.
An introduction to Pound–Drever–Hall laser frequency stabilization
8 Pith papers cite this work. Polarity classification is still indexing.
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Demonstration of an optical lock-in camera using a Pockels cell switch on an sCMOS array to achieve 2 Mpx imaging at 10 Hz with -62 dBc sensitivity for gravitational wave interferometer applications.
A recursive sum-over-round-trips model enables fast time-domain simulation of optical cavities with arbitrary time-varying boundaries and non-linear resonance-crossing dynamics.
A centimeter-scale dynamic optical cavity with heterodyne readout achieves sub-femtometer per square root Hertz displacement sensitivity above 8 Hz and tracks motions over ten orders of magnitude in range.
Sideband occupations at a sharp Fermi edge in Floquet-driven non-interacting fermions are governed exactly by the discrete Bessel kernel, converging to the Airy kernel on the A^{1/3} scale with direct consequences for shot-noise slopes.
A monolithic bow-tie cavity with finesse 5.7e4 is realized for homogeneous coupling to Sr atoms at 689 nm, projected to enable up to 28 dB spin squeezing for quantum-enhanced interferometry.
Construction of a cryogenic UHV tunable confocal Fabry-Pérot cavity apparatus with intracavity 2D sample positioning for enhanced light-matter coupling experiments.
Describes a fiber-coupling setup for Bruker IFS 125 FTS with hexagonal fibers for mode scrambling and dichroic combining for dual-source measurements.
citing papers explorer
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Steady-State Statistical Modeling of Digitally Stabilized Laser Frequency with Markov-State Feedback
A Markov chain transition matrix yields the steady-state actuator and frequency distributions for digitally stabilized lasers, exact for white noise with decorrelated sampling and with predictable deviations otherwise.
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An optical lock-in camera for advanced gravitational wave interferometers
Demonstration of an optical lock-in camera using a Pockels cell switch on an sCMOS array to achieve 2 Mpx imaging at 10 Hz with -62 dBc sensitivity for gravitational wave interferometer applications.
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Adaptive time-domain simulation of optical cavities with arbitrary dynamics
A recursive sum-over-round-trips model enables fast time-domain simulation of optical cavities with arbitrary time-varying boundaries and non-linear resonance-crossing dynamics.
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Demonstration of a compact optical resonator-based displacement sensing technique with sub-femtometer precision
A centimeter-scale dynamic optical cavity with heterodyne readout achieves sub-femtometer per square root Hertz displacement sensitivity above 8 Hz and tracks motions over ten orders of magnitude in range.
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Edge universality in Floquet sideband spectra
Sideband occupations at a sharp Fermi edge in Floquet-driven non-interacting fermions are governed exactly by the discrete Bessel kernel, converging to the Airy kernel on the A^{1/3} scale with direct consequences for shot-noise slopes.
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Towards Entanglement-Enhanced Atom Interferometry Using Bow-Tie Cavities
A monolithic bow-tie cavity with finesse 5.7e4 is realized for homogeneous coupling to Sr atoms at 689 nm, projected to enable up to 28 dB spin squeezing for quantum-enhanced interferometry.
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A cryogenic apparatus for coupling two-dimensional materials to a confocal multimode optical cavity
Construction of a cryogenic UHV tunable confocal Fabry-Pérot cavity apparatus with intracavity 2D sample positioning for enhanced light-matter coupling experiments.
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Fiber-coupling of Fourier Transform Spectrographs
Describes a fiber-coupling setup for Bruker IFS 125 FTS with hexagonal fibers for mode scrambling and dichroic combining for dual-source measurements.