Spin relaxation in inhomogeneous magnetic fields with depolarizing boundaries

• URL: http://arxiv.org/abs/2403.08300v1
• Date: Wed, 13 Mar 2024 07:15:50 GMT
• Title: Spin relaxation in inhomogeneous magnetic fields with depolarizing boundaries
• Authors: Yue Chang, Shuangai Wan, Shichao Dong, and Jie Qin
• Abstract summary: Field-inhomogeneity-induced relaxation of atomic spins confined in vapor cells with depolarizing walls is studied. In contrast to nuclear spins, such as noble-gas spins, atomic spins in uncoated cells undergo randomization at the boundaries.
• Score: 24.03686690579752
• License: http://creativecommons.org/licenses/by-nc-sa/4.0/
• Abstract: Field-inhomogeneity-induced relaxation of atomic spins confined in vapor cells with depolarizing walls is studied. In contrast to nuclear spins, such as noble-gas spins, which experience minimal polarization loss at cell walls, atomic spins in uncoated cells undergo randomization at the boundaries. This distinct boundary condition results in a varied dependence of the relaxation rate on the field gradient. By solving the Bloch-Torrey equation under fully depolarizing boundary conditions, we illustrate that the relaxation rate induced by field inhomogeneity is more pronounced for spins with a smaller original relaxation rate (in the absence of the inhomogeneous field). We establish an upper limit for the relaxation rate through calculations in the perturbation regime. Moreover, we connect it to the spin-exchange-relaxation-free magnetometers, demonstrating that its linewidth is most sensitive to inhomogeneous fields along the magnetometer's sensitive axis. Our theoretical result agrees with the experimental data for cells subjected to small pump power. However, deviations in larger input-power scenarios underscore the importance of considering pump field attenuation, which leads to uniformly distributed light shift that behaves as an inhomogeneous magnetic field.

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