Ultrastable Optical Clock with Neutral Atoms in an Engineered Light Shift Trap
Abstract
An ultrastable optical clock based on neutral atoms trapped in an optical lattice is proposed. Complete control over the light shift is achieved by employing the 5s2 1S0 5s5p 3P0 transition of 87 Sr atoms as a "clock transition". Calculations of ac multipole polarizabilities and dipole hyperpolarizabilities for the clock transition indicate that the contribution of the higher-order light shifts can be reduced to less than 1 mHz, allowing for a projected accuracy of better than 10-17.
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