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Vector and Tensor Spin Polarization for Vector Bosons at Local Equilibrium

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arxiv 2412.19416 v2 pith:2HLUDGKC submitted 2024-12-27 hep-ph nucl-th

Vector and Tensor Spin Polarization for Vector Bosons at Local Equilibrium

classification hep-ph nucl-th
keywords tensorspinvectorpolarizationorderalignmentbosonscontribution
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We derive expressions for the vector and tensor components of the spin polarization of massive vector bosons at local thermodynamic equilibrium up to second order in the space-time gradients of the thermodynamic fields pertaining to the canonical stress-energy tensor and spin tensor of the free Proca field. A set of Feynman rules is devised to calculate the Wigner function and the matrix-valued spin-dependent distribution (MVSD) functions order by order in space-time gradients. Due to constraints imposed by time-reversal symmetry, the leading contribution to spin alignment - defined as the 00-component of the tensor polarization - arises from second-order terms in MVSD, for which we provide an analytic formula. We discuss the physical meaning of different contributions to vector and tensor polarization. These formulae provide a prediction of a contribution to the spin alignment which can be compared with the observations in relativistic heavy-ion collisions.

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  1. Vector-Meson Spin Alignment from Anisotropic Quark or Hadron Coalescence

    hep-ph 2026-07 conditional novelty 6.0

    Anisotropic quark or hadron coalescence in heavy-ion collisions generates vector-meson spin alignment whose sign distinguishes bare-vector from spin-orbit-coupled production vertices.