Journal article
The Physical Basis of the Gibbs-von Neumann entropy
- Abstract:
- We develop the argument that the Gibbs-von Neumann entropy is the appropriate statistical mechanical generalisation of the thermodynamic entropy, for macroscopic and microscopic systems, whether in thermal equilibrium or not, as a consequence of Hamiltonian dynamics. The mathematical treatment utilises well known results [Gib02, Tol38, Weh78, Par89], but most importantly, incorporates a variety of arguments on the phenomenological properties of thermal states [Szi25, TQ63, HK65, GB91] and of statistical distributions[HG76, PW78, Len78]. This enables the identification of the canonical distribution as the unique representation of thermal states without approximation or presupposing the existence of an entropy function. The Gibbs-von Neumann entropy is then derived, from arguments based solely on the addition of probabilities to Hamiltonian dynamics.
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Authors
- Publication date:
- 2007-01-17
- Keywords:
- Pubs id:
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pubs:251805
- UUID:
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uuid:0ea4b1e8-6b41-4356-b701-71d558cfd06e
- Local pid:
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pubs:251805
- Source identifiers:
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251805
- Deposit date:
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2012-12-19
Terms of use
- Copyright date:
- 2007
- Notes:
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42 pages, no figures (3rd version substantial revision and
simplification of central argument incorporating adiabatic availability and
passive distributions)
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