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 Mat. Zametki, 2008, Volume 84, Issue 6, Pages 851–873 (Mi mz6566)

Transition to the Condensate State for Classical Gases and Clusterization

V. P. Maslov

M. V. Lomonosov Moscow State University, Faculty of Physics

Abstract: In this paper, using of the rigorous statement and rigorous proof the Maxwell distribution as an example, we establish estimates of the distribution depending on the parameter $N$, the number of particles. Further, we consider the problem of the occurrence of dimers in a classical gas as an analog of Bose condensation and establish estimates of the lower level of the analog of Bose condensation. We find the relationship of this level to “capture” theory in the scattering problem corresponding to an interaction of the form of the Lennard-Jones potential. This also solves the problem of the Gibbs paradox. We derive the equation of state for a nonideal gas as a result of pair interactions of particles in Lennard-Jones models and, for classical gases, discuss the $\lambda$-transition to the condensed state (the state in which $V_{spec}$ does not vary with increasing pressure; for heat capacity, this is the $\lambda$-point). We also present new quantum equations of the flow of a neutral gas consisting of particles with an odd number of neutrons in the capillaries in the Sutherland model.

Keywords: Bose condensation, clusterization, dimer, scattering theory, Lennard-Jones potential, Maxwell distribution, neutral gas flow

DOI: https://doi.org/10.4213/mzm6566

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English version:
Mathematical Notes, 2008, 84:6, 785–813

Bibliographic databases:

UDC: 519.2+531.19

Citation: V. P. Maslov, “Transition to the Condensate State for Classical Gases and Clusterization”, Mat. Zametki, 84:6 (2008), 851–873; Math. Notes, 84:6 (2008), 785–813

Citation in format AMSBIB
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• http://mi.mathnet.ru/eng/mz6566
• https://doi.org/10.4213/mzm6566
• http://mi.mathnet.ru/eng/mz/v84/i6/p851

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This publication is cited in the following articles:
1. Maslov V.P., “Mixture of New Ideal Gases and the Solution of the Gibbs and Einstein Paradoxes”, Russ. J. Math. Phys., 18:1 (2011), 83–101
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