Spin relaxation in clock transition in a Lu(II) molecular spin qubit due to phonon

Xiaoliang Zhang; Haechan Park; Hai-Ping Cheng; Xiaoguang Zhang

Spin relaxation in clock transition in a Lu(II) molecular spin qubit due to phonon

ORAL

Abstract

We compute the electron spin decoherence and relaxation times T1 and T2 due to spin-phonon coupling at spin clock-transitions in magnetic molecule crystals. The spin Hamiltonian is coupled to phonon motion through the dependences of the Lande tensor, hyperfine interaction tensor and crystal field tensor on atomic displacement. We then solve the Redfield equation of motion for the reduced density matrix, which yields T1 and T2 from the time correlation function(Ref[1]). The calculations are carried out for a Lu(II) molecular spin qubit at the spin clock-transition.

March 6, 2023, 4:06 PM – March 6, 2023, 4:18 PM

Publication: 1, Yue Yu, Xiaoliang Zhang, Sam Dillon, Jia Chen, Yiyuan Chen, Hai-Ping Cheng, Xiao-Guang Zhang,<br>Ampere field fluctuation from acoustic phonons as a possible source of spin decoherence,Journal of Physics and Chemistry of Solids,<br>Volume 171,2022,111000,ISSN 0022-3697,<br>https://doi.org/10.1016/j.jpcs.2022.111000.<br>(https://www.sciencedirect.com/science/article/pii/S0022369722004176)

Presenters

Xiaoliang Zhang

University of Florida

Authors

Xiaoliang Zhang

University of Florida
Haechan Park

University of Florida
Hai-Ping Cheng

University of Florida, university of Florida
Xiaoguang Zhang

University of Florida