IOPscience

Journal of Physics A: Mathematical and General

Quick search Find article
Quick search
Find article
Journal of Physics A: Mathematical and General Volume 38 Number 21 Create an alert RSS this journal

R C Dewar 2005 J. Phys. A: Math. Gen. 38 L371 doi:10.1088/0305-4470/38/21/L01

Maximum entropy production and the fluctuation theorem

FREE ARTICLE

R C Dewar

Show affiliations

Tag this article Full text PDF (127 KB) View as HTML

Abstract References Cited By

LETTER TO THE EDITOR

Recently the author used an information theoretical formulation of non-equilibrium statistical mechanics (MaxEnt) to derive the fluctuation theorem (FT) concerning the probability of second law violating phase-space paths. A less rigorous argument leading to the variational principle of maximum entropy production (MEP) was also given. Here a more rigorous and general mathematical derivation of MEP from MaxEnt is presented, and the relationship between MEP and the FT is thereby clarified. Specifically, it is shown that the FT allows a general orthogonality property of maximum information entropy to be extended to entropy production itself, from which MEP then follows. The new derivation highlights MEP and the FT as generic properties of MaxEnt probability distributions involving anti-symmetric constraints, independently of any physical interpretation. Physically, MEP applies to the entropy production of those macroscopic fluxes that are free to vary under the imposed constraints, and corresponds to selection of the most probable macroscopic flux configuration. In special cases MaxEnt also leads to various upper bound transport principles. The relationship between MaxEnt and previous theories of irreversible processes due to Onsager, Prigogine and Ziegler is also clarified in the light of these results.


PACS

05.70.Ce Thermodynamic functions and equations of state

05.70.Ln Nonequilibrium and irreversible thermodynamics

02.50.Cw Probability theory

05.40.-a Fluctuation phenomena, random processes, noise, and Brownian motion

MSC

60Exx Distribution theory (See also 62Exx, 62Hxx)

82B35 Irreversible thermodynamics, including Onsager-Machlup theory (See also 92E20)

Subjects

Computational physics

Statistical physics and nonlinear systems

Dates

Issue 21 (27 May 2005)

Received 22 December 2004, in final form 13 April 2005

Published 10 May 2005



Your last 10 viewed
  1. Maximum entropy production and the fluctuation theorem

    R C Dewar 2005 J. Phys. A: Math. Gen. 38 L371

  2. Series expansions for the percolation probability of a generalized Domany - Kinzel cellular automaton

    Iwan Jensen 1997 J. Phys. A: Math. Gen. 30 8471

  3. Supernovae, Jets, and Collapsars

    A. I. MacFadyen et al. 2001 ApJ 550 410

  4. Application of renormalization to potential scattering

    Carlos F de Araujo Jr et al 1997 J. Phys. A: Math. Gen. 30 4687

  5. CMS Physics Technical Design Report: Addendum on High Density QCD with Heavy Ions

    The CMS Collaboration et al 2007 J. Phys. G: Nucl. Part. Phys. 34 2307

  6. A New High-Resolution CO Map of the Inner 25 of M51. I. Streaming Motions and Spiral Structure

    S. Aalto et al. 1999 ApJ 522 165

  7. A compilation of data on two-photon reactions leading to hadron final states

    D Morgan et al 1994 J. Phys. G: Nucl. Part. Phys. 20 A1

  8. Self-gravity modelling for LISA

    Stephen M Merkowitz et al 2005 Class. Quantum Grav. 22 S395

  9. On the Temporal Relationship between Coronal Mass Ejections and Flares

    J. Zhang et al. 2001 ApJ 559 452

  10. Synthesis, structure, and magnetic properties of LaTMg and CeTMg (T = Pd, Pt, Au)

    B J Gibson et al 2002 J. Phys.: Condens. Matter 14 5173

Users also read

What's this?
This innovative new feature generates a list of articles 'also read' by other users based on them reading the original article. Article abstracts citations and references are all considered and weighted accordingly. We hope that this will help you find relevant papers for your research.

  1. Comments on a derivation and application of the 'maximum entropy production' principle
  2. Nonequilibrium criticality at shock formation in steady states
  3. Information theory explanation of the fluctuation theorem, maximum entropy production and self-organized criticality in non-equilibrium stationary states
More

Related review articles

What's this?
View review articles related to this research to gain an insight into the key trends in this subject area. Related review articles are selected based on PACS/MSC codes, and are no more than three years old.

  1. The effective temperature
  2. Unconventional phase transitions in a constrained single polymer chain
  3. Universality of Wigner random matrices: a survey of recent results
More

Share

View by subject




Export








Please login to access our web services, or create an account if you don't yet have one.

You must have cookies enabled in your web browser to be able to login.

Username
Password

Forgotten your password? Get a new one here.