用Wigner函数求解极化涡度耦合和自旋流体力学

Proceedings of XIII Quark Confinement and the Hadron Spectrum — PoS(Confinement2018) Pub Date : 2018-12-01 DOI:10.22323/1.336.0281

Avdhesh Kumar

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引用次数: 2

摘要

将新引入的自旋为1 / 2的粒子的平衡Wigner函数用于半经典动力学方程，研究了热涡度与自旋极化之间的可能关系。结果表明，在全局平衡状态下，热涡量和自旋极化张量是恒定的，但不一定相等。在局部平衡的情况下，我们定义了一个导出带自旋的流体动力学方程的过程。我们为de~Groot, van~Leeuwen和van~Weert (GLW)形式主义以及规范格式(这两种框架因能量动量和自旋张量的定义而不同)引入了这样的方程。发现GLW和正则版本通过伪规范变换相连接。

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Wigner function approach to polarization-vorticity coupling and hydrodynamics with spin

Newly introduced equilibrium Wigner functions for particles with spin one-half are used in the semi-classical kinetic equations to study a possible relation between thermal vorticity and spin polarization. It is shown that in global equilibrium both the thermal-vorticity and spin polarization tensors are constant but not necessarily equal. In the case of local equilibrium, we define a procedure leading to hydrodynamic equations with spin. We introduce such equations for the de~Groot, van~Leeuwen, and van~Weert (GLW) formalism as well as for the canonical scheme (these two frameworks differ by the definitions of the energy-momentum and spin tensors). It is found that the GLW and canonical versions are connected by a pseudo-gauge transformation.

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Proceedings of XIII Quark Confinement and the Hadron Spectrum — PoS(Confinement2018)

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