Dissipative contributions to spin polarization
High Energy Physics - Phenomenology
2025-09-08 v1 Nuclear Theory
Abstract
Utilizing the Zubarev non-equilibrium density operator method and a first-order gradient expansion, we provide a comprehensive classification of all possible spin polarization effects. A key finding is that, with the unique exception of those induced by the gradient of the spin potential, all first-order dissipative corrections are chiral, implying their dependence on parity-breaking interactions or chiral imbalance. The work also introduces new non-dissipative phenomena akin to the Spin Hall Effect, including the Chiral Spin Hall Effect, which offers a novel observable to probe QCD topological configurations.
Keywords
Cite
@article{arxiv.2509.04854,
title = {Dissipative contributions to spin polarization},
author = {Matteo Buzzegoli},
journal= {arXiv preprint arXiv:2509.04854},
year = {2025}
}
Comments
Proceedings for Quark Matter 2025