Issues

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1975

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September

  

Reviews of topical problems


Statistical model of matter

 a,  b,  c
a Lebedev Physical Institute, Russian Academy of Sciences, Leninsky prosp. 53, Moscow, 119991, Russian Federation
b Institute of Spectroscopy, Russian Academy of Sciences, ul. Fizicheskaya 5, Troitsk, Moscow, 108840, Russian Federation
c Joint Institute for High Temperatures, Russian Academy of Sciences, ul. Izhorskaya 13/19, Moscow, 127412, Russian Federation

This review is devoted to the development of the statistical model of matter over the last twenty years. The ranges of applicability of the model for electron-nuclear systems (atoms, solids, plasmas) are considered. Effects lying beyond the scope of statistical model (exchange, correlation, quantum and shell effects) are analyzed. The relative roles of the effects enumerated are estimated in different regions of temperature and pressure. The possibility of taking these effects into account as small corrections in the region of applicability of the statistical model is demonstrated. Here a procedure for expanding the physical quantities in series in the small parameters characterizing the corresponding effects is used. Allowance for the corrections considerably extends the possibilities of the statistical model in the study of the structure of matter and makes it possible to obtain new qualitative and quantitative results. It is found, e.g., that allowance for shell effects in the thermodynamics of highly-compressed matter leads to the existence of firstorder phase transitions associated with the ``squeezing-out'' of discrete shells into the continuous spectrum. The refinement of the statistical model at short distances from the nucleus, and other applications to atomic physics, are discussed. The application of the statistical model to the description of the dynamical properties of matter is also considered. In particular, the problem of the collective oscillations of the electron cloud of an atom is treated and the results of a numerical calculation of the corresponding frequencies and widths are given. The method of the density functional is briefly described.

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Fulltext is also available at DOI: 10.1070/PU1975v018n09ABEH005199
PACS: 05.70.Fh, 31.10.-y
DOI: 10.1070/PU1975v018n09ABEH005199
URL: https://ufn.ru/en/articles/1975/9/a/
Citation: Kirzhnits D A, Lozovik Yu E, Shpatakovskaya G V "Statistical model of matter" Sov. Phys. Usp. 18 649–672 (1975)
BibTexBibNote ® (generic)BibNote ® (RIS) MedlineRefWorks
PT Journal Article
TI Statistical model of matter
AU Kirzhnits D A
FAU Kirzhnits DA
AU Lozovik Yu E
FAU Lozovik YE
AU Shpatakovskaya G V
FAU Shpatakovskaya GV
DP 10 Sep, 1975
TA Phys. Usp.
VI 18
IP 9
PG 649-672
RX 10.1070/PU1975v018n09ABEH005199
URL https://ufn.ru/en/articles/1975/9/a/
SO Phys. Usp. 1975 Sep 10;18(9):649-672

Оригинал: Киржниц Д А, Лозовик Ю Е, Шпатаковская Г В «Статистическая модель вещества» УФН 117 3–47 (1975); DOI: 10.3367/UFNr.0117.197509a.0003

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