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Quantum dynamics on Orlicz spaces

Mathematical Physics 2016-05-05 v1 Functional Analysis math.MP Operator Algebras

Abstract

Quantum dynamical maps are defined and studied for quantum statistical physics based on Orlicz spaces. This complements earlier work [W. A. Majewski, L.E. Labuschagne, Ann. H. Poincare. 15, 1197-1221, (2014)] where we made a strong case for the assertion that statistical physics of regular systems should properly be based on the pair of Orlicz spaces Lcosh1,Llog(L+1)\langle L^{\cosh - 1}, L\log(L+1)\rangle. The present paper therefore in some sense "completes" the picture by showing that even in the most general non-commutative contexts, completely positive Markov maps satisfying a natural Detailed Balance condition, canonically admit an action on a large class of quantum Orlicz spaces. This is achieved by the development of a new interpolation technique, specifically suited to the above context, for extending the action of such maps to the appropriate intermediate spaces of the pair L,L1\langle L^\infty,L^1\rangle. Moreover, it is shown that quantum dynamics in the form of Markov semigroups described by some Dirichlet forms naturally extends to the context proposed in [W. A. Majewski, L.E. Labuschagne, Ann. H. Poincare. 15, 1197-1221, (2014)].

Keywords

Cite

@article{arxiv.1605.01210,
  title  = {Quantum dynamics on Orlicz spaces},
  author = {L. E. Labuschagne and W. A. Majewski},
  journal= {arXiv preprint arXiv:1605.01210},
  year   = {2016}
}
R2 v1 2026-06-22T13:53:01.099Z