Physics – Condensed Matter – Statistical Mechanics
Scientific paper
Oct 1957
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1957phrv..108..171j&link_type=abstract
Physical Review, vol. 108, Issue 2, pp. 171-190
Physics
Condensed Matter
Statistical Mechanics
501
Scientific paper
Treatment of the predictive aspect of statistical mechanics as a form of statistical inference is extended to the density-matrix formalism and applied to a discussion of the relation between irreversibility and information loss. A principle of "statistical complementarity" is pointed out, according to which the empirically verifiable probabilities of statistical mechanics necessarily correspond to incomplete predictions. A preliminary discussion is given of the second law of thermodynamics and of a certain class of irreversible processes, in an approximation equivalent to that of the semiclassical theory of radiation. It is shown that a density matrix does not in general contain all the information about a system that is relevant for predicting its behavior. In the case of a system perturbed by random fluctuating fields, the density matrix cannot satisfy any differential equation because ρ˙(t) does not depend only on ρ(t), but also on past conditions The rigorous theory involves stochastic equations in the type ρ(t)=G(t, 0)ρ(0), where the operator G is a functional of conditions during the entire interval (0-->t). Therefore a general theory of irreversible processes cannot be based on differential rate equations corresponding to time-proportional transition probabilities. However, such equations often represent useful approximations.
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