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Stable and spectrally narrow laser sources referenced to ultrastable passive Fabry-Pérot cavities are invaluable for optical atomic clocks and they find important applications, e.g. in precision tests of relativity or novel radar applications. Ultimately the fractional frequency instability of the laser is limited by Brownian thermal noise of the cavity constituents.
We demonstrate here a RAM cancellation method of reaching locking accuracy at shot-noise sensitivity level, and with a reserve precision sufficient to still be free of RAM-induced problems when the bandwidth has been narrowed to some tens of milliHz. Non-optical rf pickup sets the current limit at 2.8 ppm. Basically this paper announces the RAM-Buster approach needed to achieve the ideal spectroscopic...
The development of simple and reliable high stability clock lasers is of great importance for future state-of-the-art optical clocks [1]–[5] and for future transportable optical clocks [6], [7]. Further development of clock lasers with better stability has so far been hindered by thermal noise in the reference cavity used for laser stabilization and conventional approaches for improvements may be...
We measure the frequency fluctuations induced by thermal noise driven length fluctuations in a variety of rigid Fabry-Perot cavities. The results are in basic agreement with theoretical predictions [1].
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