12 research outputs found

    Low Temperature Physics V. 25, I. 11

    No full text
    Low Temperature Physics -- November 1999 Volume 25, Issue 11, pp. 837-928 Electromagnetic and acoustic waves in layered organic conductors (a review) O. V. Kirichenko and V. G. Peschansky Full Text: PDF (531 kB) QUANTUM LIQUIDS AND QUANTUM CRYSTALS Time correlation functions and generalized transport coefficients of semiquantum helium V. V. Ignatyuk, M. V. Tokarchuk, and I. M. Mryglod Full Text: PDF (126 kB) SUPERCONDUCTIVITY,HIGH-TEMPERATURE SUPERCONDUCTIVITY On the self-consistent theory of Josephson effect in ballistic superconducting microconstrictions M. Zareyan, Yu. A. Kolesnichenko, and A. N. Omelyanchouk Full Text: PDF (102 kB) Dynamics and drag of a vortex in type II superconductor with weak inhomogeneities A. Yu. Galkin and B. A. Ivanov Full Text: PDF (94 kB) LOW-TEMPERATURE MAGNETISM Description of critical behavior of Ising ferromagnet in the rho6 model approximation taking into account confluent correction. I. Region above the phase transition point I. V. Pylyuk Full Text: PDF (168 kB) The role of chemical disorder in the magnetism of YbInCu4 compound I. V. Svechkarev and S. N. Dolya Full Text: PDF (84 kB) ELECTRONIC PROPERTIES OF METALS AND ALLOYS Nonstationary effects induced by a strong direct current in a compensated metal G. B. Tkachev Full Text: PDF (80 kB) Generation of nonequilibrium phonons in Bi in a quantizing magnetic field Yu. A. Bogod Full Text: PDF (88 kB) Magnetically stimulated inhomogeneity of conductivity and nonlocal transport phenomena in metals V. R. Sobol, O. N. Mazurenko, and A. A. Drozd Full Text: PDF (72 kB) LATTICE DYNAMICS Localization of phonons and low-frequency sound attenuation in layered crystals E. P. Chulkin, A. P. Zhernov, and T. N. Kulagina Full Text: PDF (73 kB) Low-frequency dynamics of cubic crystals with next-nearest neighbor interaction E. V. Manzhelii and E. S. Syrkin Full Text: PDF (123 kB) ERRATA Erratum: Growth and dissolution kinetics of 3He inclusions in phase-separated 3He–4He solid mixtures [Low Temp. Physics 25, 592–606 (August–September 1999)] A. N. Gan'shin, V. N. Grigor'ev, V. A. Maidanov, N. F. Omelaenko, A. A. Penzev, E. Ya. Rudavskii, A. S. Rybalko, and Yu. A. Tokar Full Text: PDF (15 kB)Archived web conten

    Low Temperature Physics V. 25, I. 12

    No full text
    Low Temperature Physics -- December 1999 Volume 25, Issue 12, pp. 929-1002 SUPERCONDUCTIVITY,HIGH-TEMPERATURE SUPERCONDUCTIVITY Transport critical current in granular high-temperature superconductors N. A. Bogolyubov Full Text: PDF (87 kB) A crossover in the temperature behavior of the perpendicular upper critical magnetic field of layered superconductors and thin films V. M. Gvozdikov Full Text: PDF (89 kB) Relaxation of the electric resistance of YBaCuO single crystals due to hydrostatic pressure and jumpwise temperature variation M. A. Obolenskii, D. D. Balla, A. V. Bondarenko, R. V. Vovk, A. A. Prodan, and T. F. Ivanova Full Text: PDF (62 kB) Upper critical fields in superconductor–normal metal type superlattices in the Ginzburg–Landau approximation V. N. Kushnir, A. Yu. Petrov, and S. L. Prishchepa Full Text: PDF (68 kB) LOW-TEMPERATURE MAGNETISM Description of critical behavior of Ising ferromagnet in the rho6 model approximation taking into account the confluent correction. II. Region below the phase transition point I. V. Pylyuk Full Text: PDF (134 kB) Double-peaked character of the temperature dependence of resistance of perovskite manganites for a broadened ferromagnetic transition A. I. Tovstolytkin, A. N. Pogorilyi, and S. M. Kovtun Full Text: PDF (45 kB) Exact instanton solution for quantum tunneling in an uncompensated antiferromagnet B. A. Ivanov and V. E. Kireev Full Text: PDF (79 kB) Dynamics of domain walls and solitons in easy-plane magnets with weak exchange interaction M. V. Gvozdikova and A. S. Kovalev Full Text: PDF (87 kB) ELECTRONIC PROPERTIES OF METALS AND ALLOYS Phenomenological model for Casimir attraction of a metal film V. N. Dubrava and V. A. Yampol'skii Full Text: PDF (83 kB) LOW-DIMENSIONAL AND DISORDERED SYSTEMS Characteristic energy losses of electrons in a two-dimensional electron gas in a magnetic field A. M. Ermolaev and Babak Haghighi Full Text: PDF (80 kB) LATTICE DYNAMICS Peculiarities of low-frequency excitation spectrum of CsDy1–xBix(MoO4)2 V. I. Kut'ko, S. S. Gerashchenko, and N. Yu. Nedbailo Full Text: PDF (54 kB) BRIEF COMMUNICATIONS On the theory of phase separation in systems metallized as a result of doping M. A. Ivanov and V. M. Loktev Full Text: PDF (32 kB) Sound attenuation in the superconducting amorphous alloy ZrTiCuNiBe E. V. Bezuglyi, A. L. Gaiduk, V. D. Fil, W. L. Johnson, G. Bruls, B. Lüthi, B. Wolf, and S. V. Zherlitsyn Full Text: PDF (67 kB)Archived web conten

    Analytical calculation of the critical temperature and estimation of the critical region size for a fluid model

    Get PDF
    An analytical procedure for calculating the critical temperature and estimating the size of critical region for a cell fluid model is developed. Our numerical calculations are illustrated by the case of the Morse potential parameters characterizing the alkali metals (sodium and potassium). The critical temperatures found for liquid sodium and potassium as solutions of the resulting quadratic equation agree with experimental data. The expression for the relative temperature determining the critical region size is obtained proceeding from the condition for the critical regime existence. In the cases of sodium and potassium, the value of this temperature is of the order of a few hundredths.Comment: 15 pages, 2 table

    Thermodynamic response functions in a cell fluid model

    Get PDF
    Thermodynamic response functions, namely the isothermal compressibility, the thermal pressure coefficient, and the thermal expansion coefficient, are calculated for a many-particle system interacting through a modified Morse potential. These calculations are based on an equation of state previously derived for a cell fluid model in the grand canonical ensemble. The calculated quantities are presented graphically as functions of density and the effective chemical potential.15 pages, 11 figure
    corecore