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TVT, 2007, Volume 45, Issue 1, Pages 43–55 (Mi tvt968)  

This article is cited in 12 scientific papers (total in 12 papers)

Thermophysical Properties of Materials

The phase diagram and spinodal decomposition of metastable states of Lennard-Jones system

A. Yu. Kuksin, H. E. Norman, V. V. Stegailov

Moscow Institute of Physics and Technology (State University), Dolgoprudny, Moscow region

Abstract: The method of molecular dynamics is used to treat the metastable states of Lennard-Jones crystal and liquid at different temperatures and pressures, including the negative-pressure region. Analysis is made of the pattern of relative position of surfaces of the equation of state of the crystal and liquid phases in the metastable region. The limits of stability of metastable states of liquid and crystal on the phase diagram are determined. The mechanism of crystal decomposition in the vicinity of the stability limit is treated. The stochastic properties of a many-particle system are investigated in the region in the vicinity of the spinodal, and the dynamic memory time and K-entropy are calculated.

Full text: PDF file (1256 kB)

English version:
High Temperature, 2007, 45:1, 37–48

Bibliographic databases:

UDC: 538.953
PACS: 64.60.My; 64.60.Qb; 64.10.+h
Received: 04.08.2005

Citation: A. Yu. Kuksin, H. E. Norman, V. V. Stegailov, “The phase diagram and spinodal decomposition of metastable states of Lennard-Jones system”, TVT, 45:1 (2007), 43–55; High Temperature, 45:1 (2007), 37–48

Citation in format AMSBIB
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\paper The phase diagram and spinodal decomposition of metastable states of Lennard-Jones system
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\issue 1
\pages 43--55
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\jour High Temperature
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    Citing articles on Google Scholar: Russian citations, English citations
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    1. G. I. Kanel', V. E. Fortov, S. V. Razorenov, “Shock waves in condensed-state physics”, Phys. Usp., 50:8 (2007), 771–791  mathnet  crossref  crossref  adsnasa  isi
    2. Genri E. Norman, Vladimir V. Stegailov, “Stochastic theory of the classical molecular dynamics method”, Math. Models Comput. Simul., 5:4 (2013), 305–333  mathnet  crossref  mathscinet
    3. Turci F., Schilling T., Yamani M.H., Oettel M., “Solid Phase Properties and Crystallization in Simple Model Systems”, Eur. Phys. J.-Spec. Top., 223:3 (2014), 421–438  crossref  isi
    4. Zhigalin A.S. Rousskikh A.G. Oreshkin V.I. Chaikovsky S.A. Ratakhin N.A. Kuznetsov V.V., “Experimental Research of the Fine Foil Explosion Dynamics”, International Congress on Energy Fluxes and Radiation Effects (Efre-2014), Journal of Physics Conference Series, 552, ed. Lisitsyn V. Lopatin V. Bogdan A., IOP Publishing Ltd, 2014, 012027  crossref  isi
    5. V. L. Malyshev, D. F. Marin, E. F. Moiseeva, N. A. Gumerov, I. Sh. Akhatov, “Study of the tensile strength of a liquid by molecular dynamics methods”, High Temperature, 53:3 (2015), 406–412  mathnet  crossref  crossref  isi  elib  elib
    6. Zee M., Feickert A.J., Kroll D.M., Croll S.G., “Cavitation in Crosslinked Polymers: Molecular Dynamics Simulations of Network Formation”, Prog. Org. Coat., 83 (2015), 55–63  crossref  isi  elib
    7. Guzev M.A., Izrailsky Yu.G., Koshel K.V., Dyskin A.V., Pasternak E., “the Influence of Multiple Frequency Perturbations on Particle Chaotization in a Cell”, Commun. Nonlinear Sci. Numer. Simul., 23:1-3 (2015), 28–38  crossref  mathscinet  isi  elib
    8. Lokotosh T.V., Malomuzh N.P., Pankratov K.N., Shakun K.S., “Results in the Theory of Collective Self-Diffusion in Liquids”, Ukr. J. Phys., 60:8 (2015), 697–707  crossref  isi  elib
    9. Norman G.E., Saitov I.M., Sartan R.A., “Metastable States of Warm Dense Hydrogen”, Interfacial Phenom. Heat Transf., 5:3, SI (2017), 165–171  crossref  isi
    10. Baidakov V.G. Tipeev A.O., “The Kinetics of the Liquid Phase Nucleation in a Stretched Fcc Crystal: a Molecular Dynamics Simulation”, Phys. Solid State, 60:9 (2018), 1853–1860  crossref  isi  scopus
    11. Gerasimov D.N., Yurin E.I., “Numerical Experiments: Molecular Dynamics Simulations”: Gerasimov, DN Yurin, EI, Kinetics of Evaporation, Springer Series in Surface Sciences, 68, Springer-Verlag Berlin, 2018, 93–119  crossref  isi  scopus
    12. Malomuzh N.P., Shakun K.S., Kuznetsova A.A., “New Possibilities Provided By the Analysis of the Molecular Velocity Autocorrelation Function in Liquids”, Ukr. J. Phys., 63:4 (2018), 317–326  crossref  isi  scopus
  • Teplofizika vysokikh temperatur Teplofizika vysokikh temperatur
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