English

Consistent thermodynamics for spin echoes

Quantum Physics 2013-05-29 v2 Statistical Mechanics

Abstract

Spin-echo experiments are often said to constitute an instant of anti-thermodynamic behavior in a concrete physical system that violates the second law of thermodynamics. We argue that a proper thermodynamic treatment of the effect should take into account the correlations between the spin and translational degrees of freedom of the molecules. To this end, we construct an entropy functional using Boltzmann macrostates that incorporates both spin and translational degrees of freedom. With this definition there is nothing special in the thermodynamics of spin echoes: dephasing corresponds to Hamiltonian evolution and leaves the entropy unchanged; dissipation increases the entropy. In particular, there is no phase of entropy decrease in the echo. We also discuss the definition of macrostates from the underlying quantum theory and we show that the decay of net magnetization provides a faithful measure of entropy change.

Keywords

Cite

@article{arxiv.1009.0940,
  title  = {Consistent thermodynamics for spin echoes},
  author = {Charis Anastopoulos and Ntina Savvidou},
  journal= {arXiv preprint arXiv:1009.0940},
  year   = {2013}
}

Comments

15 pages, 2 figs. Changed figures, version to appear in PRE

R2 v1 2026-06-21T16:09:44.736Z