Rényi statistics in equilibrium statistical mechanics
Copyright policy )Rényi statistics in equilibrium statistical mechanics
The Renyi statistics in the canonical and microcanonical ensembles is examined in the general case and in particular for the ideal gas. In the microcanonical ensemble the Renyi statistics is equivalent with the Boltzmann-Gibbs statistics. By the exact analytical results for the ideal gas, it is shown that in the canonical ensemble in the thermodynamic limit the Renyi statistics is also equivalent with the Boltzmann-Gibbs statistics. Furthermore it satisfies the requirements of the equilibrium thermodynamics, i.e. the thermodynamical potential of the statistical ensemble is a homogeneous function of degree 1 of its extensive variables of state. We conclude that the Renyi statistics duplicates the thermodynamical relations stemming from the Boltzmann-Gibbs statistics in the thermodynamical limit.
13 pages
- National Academy of Sciences of Ukraine Ukraine
- Institute for Particle and Nuclear Physics Hungary
- Institute of Applied Physics Switzerland
- Academy of Sciences of Moldova Moldova (Republic of)
- National Academy of Sciences of Belarus Belarus
Nuclear Theory, Statistical Mechanics (cond-mat.stat-mech), Classical and relativistic thermodynamics, Rényi statistics, FOS: Physical sciences, equilibrium statistical mechanics, equilibrium thermodynamics, Nuclear Theory (nucl-th), Statistical thermodynamics, Kinetic theory of gases in equilibrium statistical mechanics, zero law of thermodynamics, Classical equilibrium statistical mechanics (general), Condensed Matter - Statistical Mechanics
Nuclear Theory, Statistical Mechanics (cond-mat.stat-mech), Classical and relativistic thermodynamics, Rényi statistics, FOS: Physical sciences, equilibrium statistical mechanics, equilibrium thermodynamics, Nuclear Theory (nucl-th), Statistical thermodynamics, Kinetic theory of gases in equilibrium statistical mechanics, zero law of thermodynamics, Classical equilibrium statistical mechanics (general), Condensed Matter - Statistical Mechanics
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