中文

Thermal Fluctuations in Quantized Chaotic Systems

chao-dyn 2009-10-28 v3 凝聚态物理 混沌动力学 量子物理

摘要

We consider a quantum system with NN degrees of freedom which is classically chaotic. When NN is large, and both \hbar and the quantum energy uncertainty ΔE\Delta E are small, quantum chaos theory can be used to demonstrate the following results: (1) given a generic observable AA, the infinite time average A\overline A of the quantum expectation value <A(t)><A(t)> is independent of all aspects of the initial state other than the total energy, and equal to an appropriate thermal average of AA; (2) the time variations of <A(t)>A<A(t)> - \overline A are too small to represent thermal fluctuations; (3) however, the time variations of <A2(t)><A(t)>2<A^2(t)> - <A(t)>^2 can be consistently interpreted as thermal fluctuations, even though these same time variations would be called quantum fluctuations when NN is small.

关键词

引用

@article{arxiv.chao-dyn/9511001,
  title  = {Thermal Fluctuations in Quantized Chaotic Systems},
  author = {Mark Srednicki},
  journal= {arXiv preprint arXiv:chao-dyn/9511001},
  year   = {2009}
}

备注

6 pages in RevTeX 3.0, this version to be published in J.Phys.A