Abstract

The standard theory of fluctuations in thermodynamic variables in various ensembles is generalized to nonthermodynamic variables: e.g., the mean-square fluctuations of the kinetic energy $K$ in a classical microcanonical ensemble at fixed energy $E$ is given, for large systems, by $\frac{〈{(\ensuremath{\delta}K)}^{2}〉}{〈K〉=T[\frac{1\ensuremath{-}3}{2C})}$, where $T$ is the temperature (corresponding to the energy $E$) and $C$ is the specific heat per particle (in units of Boltzmann's constant). The general results may be expressed in terms of the asymptotic behavior of the Ursell functions in various ensembles. Applications are made to molecular dynamic computations where time averages correspond (via ergodicity) to phase averages in an ensemble with fixed energy and momentum. The results are also useful for time-dependent correlations.

Keywords

Microcanonical ensembleErgodicityPhysicsKinetic energyStatistical physicsComputationCanonical ensembleEnergy (signal processing)Boltzmann constantMomentum (technical analysis)Constant (computer programming)Statistical ensembleQuantum mechanicsMathematicsStatisticsMonte Carlo method

Affiliated Institutions

Related Publications

Publication Info

Year
1967
Type
article
Volume
153
Issue
1
Pages
250-254
Citations
490
Access
Closed

External Links

View on DOI.org

Social Impact

Altmetric
PlumX Metrics

Social media, news, blog, policy document mentions

Citation Metrics

490
OpenAlex

Cite This

Joel L. Lebowitz, J. K. Percus, Loup Verlet (1967). Ensemble Dependence of Fluctuations with Application to Machine Computations. Physical Review , 153 (1) , 250-254. https://doi.org/10.1103/physrev.153.250

Identifiers

DOI
10.1103/physrev.153.250