Thermal-Noise Limit in the Frequency Stabilization of Lasers with Rigid Cavities

Details Thermal-Noise Limit in the Frequency Stabilization of Lasers with Rigid Cavities Thermal-Noise Limit in the Frequency Stabilization of Lasers with Rigid Cavities

Dec 2004

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004phrvl..93y0602n&link_type=abstract

Physical Review Letters, vol. 93, Issue 25, id. 250602

Computer Science

Numerical Analysis

95

Brownian Motion, Gravitational Wave Detectors And Experiments, Time And Frequency, Resonators, Cavities, Amplifiers, Arrays, And Rings

Scientific paper

We evaluate thermal noise (Brownian motion) in a rigid reference cavity used for frequency stabilization of lasers, based on the mechanical loss of cavity materials and the numerical analysis of the mirror-spacer mechanics with the direct application of the fluctuation dissipation theorem. This noise sets a fundamental limit for the frequency stability achieved with a rigid frequency-reference cavity of order 1 Hz/√(Hz) (0.01 Hz/√(Hz)) at 10mHz (100Hz) at room temperature. This level coincides with the world-highest level stabilization results.

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