Extended rotational coherence of polar molecules in an elliptically polarized trap

• URL: http://arxiv.org/abs/2306.07264v1
• Date: Mon, 12 Jun 2023 17:50:22 GMT
• Title: Extended rotational coherence of polar molecules in an elliptically polarized trap
• Authors: Annie J. Park, Lewis R.B. Picard, Gabriel E. Patenotte, Jessie T. Zhang, Till Rosenband, Kang-Kuen Ni
• Abstract summary: We demonstrate long rotational coherence of individual polar molecules in an optical trap. In an optical tweezer array of NaCs molecules, we achieve a three-orders-of-magnitude reduction in differential light shift. With spin-echo pulses, we measure a rotational coherence time of 62(3) ms (one pulse) and 250(40) ms (up to 72 pulses)
• Score: 0.0
• License: http://creativecommons.org/licenses/by-nc-sa/4.0/
• Abstract: We demonstrate long rotational coherence of individual polar molecules in the motional ground state of an optical trap. In the present, previously unexplored regime, the rotational eigenstates of molecules are dominantly quantized by trapping light rather than static fields, and the main source of decoherence is differential light shift. In an optical tweezer array of NaCs molecules, we achieve a three-orders-of-magnitude reduction in differential light shift by changing the trap's polarization from linear to a specific "magic" ellipticity. With spin-echo pulses, we measure a rotational coherence time of 62(3) ms (one pulse) and 250(40) ms (up to 72 pulses), surpassing the projected duration of resonant dipole-dipole entangling gates by orders of magnitude.

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