Litcius/Paper detail

Relativistic dissipative spin dynamics in the relaxation time approximation

Samapan Bhadury, Wojciech Florkowski, Amaresh Jaiswal, Avdhesh Kumar, Radosław Ryblewski

2021Physics Letters B139 citationsDOIOpen Access PDF

Abstract

The concept of the Wigner function is used to construct a semi-classical kinetic theory describing the evolution of the axial current phase-space density of spin-12 particles in the relaxation time approximation. The resulting approach can be used to study spin polarization effects in relativistic matter, in particular, in heavy-ion collisions. An expression for the axial current based on the classical treatment of spin is also introduced and we show that it is consistent with earlier calculations using Wigner functions. Finally, we derive non-equilibrium corrections to the spin tensor, which are used to define, for the first time, the structure of spin transport coefficients in relativistic matter.

Topics & Concepts

PhysicsDissipative systemSpin (aerodynamics)Time evolutionWigner distribution functionPhase spaceRelaxation (psychology)Tensor (intrinsic definition)Spin polarizationPolarization (electrochemistry)Statistical physicsQuantum electrodynamicsClassical mechanicsQuantum mechanicsElectronQuantumMathematicsPsychologyThermodynamicsPhysical chemistrySocial psychologyChemistryPure mathematicsHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle InteractionsCold Atom Physics and Bose-Einstein Condensates