Denis J. Evans, Debra J. Searles, Emil Mittag
Published 2000-08-29Version 2
For thermostatted dissipative systems the Fluctuation Theorem gives an analytical expression for the ratio of probabilities that the time averaged entropy production in a finite system observed for a finite time, takes on a specified value compared to the negative of that value. Hitherto it had been thought that the presence of some thermostatting mechanism was an essential component of any system which satisfies a Fluctuation Theorem. In the present paper we show that a Fluctuation Theorem can be derived for purely Hamiltonian systems, with or without applied dissipative fields.
Comments: 10 pages including 4 figures, submitted for publication
Journal: Physical Review E, 63, 051105/1-4 (2001)
Fluctuation theorem revisited
Fluctuation Theorems for Heat exchanges between passive and active baths
Becoming Large, Becoming Infinite: The Anatomy of Thermal Physics and Phase Transitions in Finite Systems
