Spin kinetic theory with a nonlocal relaxation time approximation

Nora Weickgenannt, Jean-Paul Blaizot
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Abstract

We present a novel relaxation time approximation for kinetic theory with spin which takes into account the nonlocality of particle collisions. In particular, it models the property of the microscopic nonlocal collision term to vanish in global, but not in local equilibrium. We study the asymptotic distribution function obtained as the solution of the Boltzmann equation within the nonlocal relaxation time approximation in the limit of small gradients and short relaxation time. We show that the resulting polarization agrees with the one obtained from the Zubarev formalism for a certain value of a coefficient that determines the time scale on which orbital angular momentum is converted into spin. This coefficient can be identified with a parameter related to the pseudo gauge choice in the Zubarev formalism. Finally, we demonstrate how the nonlocal collision term generates polarization from vorticity by studying a nonrelativistic rotating cylinder both from kinetic and hydrodynamic approaches, which are shown to be equivalent in this example.
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采用非局部弛豫时间近似的自旋动力学理论
我们提出了一种新的自旋动力学理论弛豫时间近似,它考虑到了粒子碰撞的非局域性。特别是,它模拟了微观非局部碰撞项在全局平衡时消失而在局部平衡时不消失的特性。我们研究了在小梯度和短松弛时间的限制下,在非局部松弛时间近似的波尔兹曼方程解中得到的渐近分布函数。我们证明,在决定轨道角动量转化为自旋的时间尺度的某一系数值上,所得到的极化与祖巴列夫形式主义得到的极化一致。这个系数可以与祖巴列夫形式主义中与伪量规选择有关的参数相识别。最后,我们通过动力学和流体力学方法研究一个非相对论旋转圆柱体,证明非局部碰撞项如何从涡度产生极化。
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