Shira Jackson scite author profile

We find a simple solution to the problem of probe laser light shifts in two-photon optical atomic clocks. We show that there exists a magic polarization at which the light shifts of the two atomic states involved in the clock transition are identical. We calculate the differential polarizability as a function of laser polarization for two-photon optical clocks based on neutral calcium and strontium, estimate the magic polarization angle for these clocks, and determine the extent to which probe laser light shifts can be suppressed. We show that the light shift and the two-photon excitation rate can be independently controlled using the probe laser polarization.

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Note: A compact external-cavity diode laser, using feedback from an optical fiber

Potnis

Edge

Jackson

et al. 2017

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Progress towards a two-photon clock based on laser-cooled calcium

Potnis

Jackson

Vutha

2017

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Shira Jackson

Laser frequency stabilization using a transfer interferometer

Technique for Rapid Mass Determination of Airborne Microparticles Based on Release and Recapture from an Optical Dipole Force Trap

Magic polarization for cancellation of light shifts in two-photon optical clocks

Note: A compact external-cavity diode laser, using feedback from an optical fiber

Progress towards a two-photon clock based on laser-cooled calcium

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