Free Energy of Gravitating Fermions
Les rencontres physiciens-mathématiciens de Strasbourg -RCP25, Tome 14 (1972), Exposé no. 3, 26 p.
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     author = {Thirring, Walter},
     title = {Free {Energy} of {Gravitating} {Fermions}},
     journal = {Les rencontres physiciens-math\'ematiciens de Strasbourg -RCP25},
     note = {talk:3},
     pages = {1--26},
     publisher = {Institut de Recherche Math\'ematique Avanc\'ee - Universit\'e Louis Pasteur},
     volume = {14},
     year = {1972},
     language = {en},
     url = {http://www.numdam.org/item/RCP25_1972__14__A3_0/}
}
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Thirring, Walter. Free Energy of Gravitating Fermions. Les rencontres physiciens-mathématiciens de Strasbourg -RCP25, Tome 14 (1972), Exposé no. 3, 26 p. http://www.numdam.org/item/RCP25_1972__14__A3_0/

1) F.J. Dyson in Statistical Physics, Phase transitions and Superfluidity, 1966 Brandeis University Suramer School in Theoretical Physics, lecture notes ;

F.J. Dyson and A. Lenard, J.Math.Phys. 8 (1967) 423 | MR | Zbl

2) J.L. Lebowitz and E. H. Lieb, Phys. Rev. Letter 22. (1969) 631

3) J.-M. Lévy-Leblond, J.Math.Phys. 10 (1969) 806.

4) W. Thirring, Z. Phys. 235 (1970) 339;

P. Hertel and W. Thirring, Annals of Physics 63 (1971).

5) P. Hertel and W. Thirring, CEEN preprint TH. 1338 (1971). | MR

6) A typical "neutron star" of 10 57 particles at a temperature of 5 MeV and enclosed into a sphere of 100 km radius corresponds to (λN,λ -4/3 β,λ -1/3 R) with N=1, β=60 2 κ -2 m N -5 , R=29 2 κ -1 m N -1 and λ=10 57 . Since N, S and R are of order unity (if measured in their natural units) and since λ=10 57 is sufficiently large, we will describe the above "neutron star" by the limit λ. For N=1057, β=(5MeV) -1 and R=100 km we would have reached the same accuracy for λ=1.

7) T. Kato, Perturbation theory for linear operators, Berlin, Springer 1966. There the infinite volume case is studied, however, the result also holds for finite volume. | Zbl

8) H.D. Maison, Analyticity of the partition function for finite quantum Systems, CERN preprint TH. 1299 (1971). | MR | Zbl

9) J. Dieudonné, Eléments d'analyse, Tome I, Paris, Gauthier-Villars 1969. | Zbl

10) B. Simon, J.Math.Phys. 10 (1969) 1123. Again this estimate for infinité volume is a fortiori also valid for finite volume. | MR

11) D. Ruelle, Statistical mechanics - rigorous results, New York, Benjamin 1961. | MR | Zbl

12) N.N. Bogoliubov Jr., Physica 32 (1966) 933. | MR

13) J. Ginibre, Commun.Math.Phys. 8 (1968) 26. | MR | Zbl