000			02277cam0a2200385 4500
001			6375
009			066833299
003			http://www.sudoc.fr/066833299
005			20250630091649.0
010			_a0521580560 _brel.
010			_a0-521-58958-4 _bbr.
020			_aUS _b 2001035650
073		1	_a9780521589581 _bbr
090			_a6375
099			_tOUVR _zALEX18631
100			_a20020830h20022002k y0frey50 ba
101	0		_aeng _2639-2
102			_aGB
105			_aa a 001yy
106			_ar
181			_6z01 _ctxt _2rdacontent
181		1	_6z01 _ai# _bxxxe##
182			_6z01 _cn _2rdamedia
182		1	_6z01 _an
183		1	_6z01 _anga _2RDAfrCarrier
200	1		_aMethods of statistical physics _fTomoyasu Tanaka
214		0	_aCambridge _aNew York _cCambridge University Press _d2002
215			_a1 vol. (XV-293 p.) _cill., couv. ill. en coul. _d26 cm
320			_aBibliogr. p. 285-290. Index.
330			_aLa 4e de couverture porte : "This graduate-level textbook on thermal physics covers classical thermodynamics, statistical mechanics and its applications. It describes theoretical methods to calculate thermodynamic properties, such as the equation of state, specific heat, Helmholtz free energy, magnetic susceptibility and phase transitions of macroscopic systems. In addition to the more standard material covered, this book also describes powerful techniques, which are not found elsewhere, to determine the correlation effects on which the thermodynamic properties are based. Particular emphasis is given to the cluster variation method and a novel formulation is developed for its expression in terms of correlation functions. Although a basic knowledge of quantum mechanics is required, the mathematical formulations are accessible and entirely self-contained. The book will therefore constitute an ideal companion text for graduate students studying courses on the theory of complex analysis, classical mechanics, classical electrodynamics, and quantum mechanics. Supplementary material is also available on the internet"
606			_aStatistical physics _2lc
606			_3027393348 _aPhysique statistique _2rameau
676			_a530.13 _v21
680			_aQC174.8 _b.T36 2002
700		1	_3066833248 _aTanaka _bTomoyasu _f1919-.... _4070