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Spin-heat relaxation and thermo-spin diffusion in atomic Bose and Fermi gases

We study spin-dependent heat transport in quantum gases, focusing on transport phenomena related to pure spin currents and spin-dependent temperatures. Using the Boltzmann equation, we compute the coupled spin and heat transport coefficients as a function of temperature and interaction strength for energy dependent $s$-wave scattering. We address the issue of whether spin-dependent temperatures can be sustained on a time and length scale relevant for experiments by computing the spin-heat relaxation time and diffusion length. We find that the time scale for spin-heat relaxation time diverges at low temperatures for both bosons and fermions, indicating that the concept of spin-heat accumulation is well defined for degenerate gases. For bosons, we find power-law behavior on approach to Bose condensation above the critical temperature, as expected from the theory of dynamical critical phenomena.

preprint2015arXivOpen access
Clement H. WongH. T. C. StoofR. A. Duine
cond-mat.stat-mechcond-mat.mes-hallcond-mat.quant-gas
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Clement H. WongH. T. C. StoofR. A. Duine

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