English

Quantum correlation entropy

Quantum Physics 2020-12-02 v3 Statistical Mechanics

Abstract

We study quantum coarse-grained entropy and demonstrate that the gap in entropy between local and global coarse-grainings is a natural generalization of entanglement entropy to mixed states and multipartite systems. This "quantum correlation entropy" SQCS^{\rm QC} is additive over independent systems, is invariant under local unitary operations, measures total nonclassical correlations (vanishing on states with strictly classical correlation), and reduces to the entanglement entropy for bipartite pure states. It quantifies how well a quantum system can be understood via local measurements, and ties directly to non-equilibrium thermodynamics, including representing a lower bound on the quantum part of thermodynamic entropy production. We discuss two other measures of nonclassical correlation to which this entropy is equivalent, and argue that together they provide a unique thermodynamically distinguished measure.

Keywords

Cite

@article{arxiv.2005.05408,
  title  = {Quantum correlation entropy},
  author = {Joseph Schindler and Dominik Šafránek and Anthony Aguirre},
  journal= {arXiv preprint arXiv:2005.05408},
  year   = {2020}
}

Comments

6 pages. v3 published version

R2 v1 2026-06-23T15:28:18.881Z