Quark Matter 2019 - the XXVIIIth International Conference on Ultra-relativistic Nucleus-Nucleus Collisions

Quantum Kinetic Theory of Spin Polarization of Massive Quarks in Perturbative QCD

6 Nov 2019, 15:40

20m

Ball Room 1 (Wanda Reign Wuhan Hotel)

Oral Presentation Chirality, vorticity and spin polarization Parallel Session - Chirality III

Speaker

Shiyong Li (University of illinois at chicago)

Description

We present the quantum kinetic equation for spin polarization of massive quarks in leading log order of perturbative QCD, which describes time evolution of the spin density matrix in momentum space of a massive quark interacting with a background QCD plasma. We find that the time evolution operator of the spin density matrix, or the quantum kinetic collision terms, are universally of order $\alpha_s^2\log(1/\alpha_s)$ in terms of the QCD coupling constant $\alpha_s=g^2/(4π)$. Our quantum kinetic equation is valid for an arbitrary quark mass $m\gg m_D∼gT$, where $m_D$ is the Debye mass, and can be used to study relaxation dynamics of spin polarization of massive quarks in perturbative QCD regime.

Presentation materials

Shiyong.pdf