Ergodic hypothesis: Difference between revisions

Revision as of 15:09, 5 June 2007

The Ergodic hypothesis (Ref 1 and 2) essentially states that an ensemble average (i.e. Monte Carlo) of an observable, $\langle O\rangle _{\mu }$ is equivalent to the time average, ${\overline {O}}_{T}$ of an observable (i.e. molecular dynamics). i.e.

\lim _{T\rightarrow \infty }{\overline {O}}_{T}(\{q_{0}(t)\},\{p_{0}(t)\})=\langle O\rangle _{\mu }.

A restatement of the ergodic hypothesis is to say that all allowed states are equally probable.

References

George D. Birkhoff, "Proof of the Ergodic Theorem", PNAS 17 pp. 656-660 (1931)
Adrian Patrascioiu "The Ergodic-Hypothesis, A Complicated Problem in Mathematics and Physics", Los Alamos Science, 15 pp. 263- (1987)

Revision as of 17:39, 28 May 2007 (edit) Carl McBride (talk \| contribs) No edit summary ← Older edit		Revision as of 15:09, 5 June 2007 (edit) (undo) Carl McBride (talk \| contribs) No edit summary Newer edit →
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	The Ergodic hypothesis (Ref 1 and 2) essentially states that an ensemble average (MC) of an observable, <math> \langle O \rangle_\mu</math> is equivalent to the time average, <math>\overline{O}_T</math> of an observable (MD). ''i.e.''		The Ergodic hypothesis (Ref 1 and 2) essentially states that an ensemble average (i.e. [[Monte Carlo]]) of an observable, <math> \langle O \rangle_\mu</math> is equivalent to the time average, <math>\overline{O}_T</math> of an observable (i.e. [[molecular dynamics]]). ''i.e.''

	:<math>\lim_{T \rightarrow \infty} \overline{O}_T (\{q_0(t)\},\{p_0(t)\}) = \langle O \rangle_\mu.</math>		:<math>\lim_{T \rightarrow \infty} \overline{O}_T (\{q_0(t)\},\{p_0(t)\}) = \langle O \rangle_\mu.</math>

Ergodic hypothesis: Difference between revisions

Revision as of 15:09, 5 June 2007

References

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