Cold Beam Optical Clock with Multifrequency Spectroscopy
Abstract
We demonstrate an optical clock based on Ramsey-Bord\'e interferometry in a laser-cooled 40Ca beam. The mean velocity is reduced by an order of magnitude relative to a thermal beam and the transverse temperature approaches the Doppler limit, enabling the measurement of sub-kHz linewidth fringes in a compact interferometer. Using tailored phase and intensity modulation of the spectroscopy laser to add uniform frequency sidebands, we interrogate atoms throughout the transverse velocity distribution, increasing the Ramsey-Bord\'e fringe amplitude by a factor of 14 and improving the Allan deviation to 3.4× 10-15 at one second averaging time.
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