Abstract
We study non-perturbative real-time correlation functions at finite temperature. In order to see whether the classical term gives a good approximation in the high temperature limit T ⪢ ℏω, we consider the first ℏ 2 quantum corrections. We find that for the simplest non-trivial case, the quantum mechanical anharmonic oscillator, the classical result is reliable only for moderately large times: after some time t ∗ the classical approximation breaks down even at high temperatures. Moreover, the result for the first quantum corrections cannot, in general, be reproduced by modifying the parameters of the classical theory.
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