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Collisional corrections to spin polarization from quantum kinetic theory using Chapman-Enskog expansion (2408.09877v2)

Published 19 Aug 2024 in hep-ph, hep-th, and nucl-th

Abstract: We have investigated the collisional corrections to the spin polarization pseudo-vector, $\delta\mathcal{P}{\mu}$, using quantum kinetic theory in Chapman-Enskog expansion. We derive the spin Boltzmann equation incorporating M{\o}ller scattering process. We further consider two distinct scenarios using hard thermal loop approximations for simplification. In scenario (I), the vector charge distribution function is treated as off-equilibrium under the validity domain of gradient expansion. Remarkably, the polarization induced by gradients of thermal chemical potential and shear viscous tensors are modified, but $\delta\mathcal{P}{\textrm{ }}{\mu}$ in this scenario does not depend on the coupling constant. In scenario (II), the vector charge distribution function is assumed to be in local thermal equilibrium. Then collisional corrections $\delta\mathcal{P}{\textrm{ }}{\mu}$ in this scenario are at $\mathcal{O}(\hbar{2}\partial{2})$. Additionally, we evaluate the $\delta\mathcal{P}{\mu}$ using relaxation time approach for comparative analysis. Our results establish the theoretical framework necessary for the future numerical investigations on the interaction corrections to spin polarization.

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