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Rotational Coherence Times of Polar Molecules in Optical Tweezers

Authors
Burchesky, SeanAnderegg, LoicBao, YichengYu, Scarlett S.Chae, EunmiKetterle, WolfgangNi, Kang-KuenDoyle, John M.
Issue Date
17-9월-2021
Publisher
AMER PHYSICAL SOC
Citation
PHYSICAL REVIEW LETTERS, v.127, no.12
Indexed
SCIE
SCOPUS
Journal Title
PHYSICAL REVIEW LETTERS
Volume
127
Number
12
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/136340
DOI
10.1103/PhysRevLett.127.123202
ISSN
0031-9007
Abstract
Qubit coherence times are critical to the performance of any robust quantum computing platform. For quantum information processing using arrays of polar molecules, a key performance parameter is the molecular rotational coherence time. We report a 93(7) ms coherence time for rotational state qubits of laser cooled CaF molecules in optical tweezer traps, over an order of magnitude longer than previous systems. Inhomogeneous broadening due to the differential polarizability between the qubit states is suppressed by tuning the tweezer polarization and applied magnetic field to a "magic" angle. The coherence time is limited by the residual differential polarizability, implying improvement with further cooling. A single spin-echo pulse is able to extend the coherence time to nearly half a second. The measured coherence times demonstrate the potential of polar molecules as high fidelity qubits.
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