Footo Valentin Nikolaevich Ryzhov
Deputy Director for Science

Personal E-mail: ryzhov@hppi.troitsk.ru

CURRICULUM VITAE

SURNAME : Ryzhov

FIRST NAME(S): Valentin

Affiliation and official address: Institute for High Pressure Physics, Russian Academy of Sciences, 142 190 Kaluzhskoe shosse, 14, Troitsk, Moscow, Russia

Date and place of birth: 29 December 1952, Noginsk, Moscow reg., Russia

Nationality: Russian

Education (degrees, dates, universities)

Master’s degree -1976, Department of Physics, Moscow State University, Russia

Ph. D - 1981, Joint Institute for Nuclear Researches, Dubna, Moscow reg.,

Doctor of Science - 1997, Joint Institute for Nuclear Researches, Dubna, Moscow reg., Russia

Career/Employment (employers, positions and dates)

1976-1979 Institute for High Pressure Physics, Post-Graduate Student

1979-1985 Institute for High Pressure Physics, Junior Scientist

1985-1997 Institute for High Pressure Physics, Senior Scientist

1997- up to now: Institute for High Pressure Physics, Deputy Director

1997- up to now: Moscow Institute of Physics and Technology (State University), lecturer

Specialization: Condensed Matter Theoretical Physics

Current research interests: High Pressure Physics, Phase Transitions,

Physics of Disordered Systems, Liquids, Glasses, Melting, Superconductivity and Bose-Einstein Condensates, Computer Simulations

Member of Russian Physical Society, Member of European Physical Society.

Recent publications

1.  A.M. Belemuk, V. N. Ryzhov, S.-T. Chui. Stable and unstable regimes in Bose-Fermi mixtures with attraction between components, PHYSICAL REVIEW A 76, 013609 (2007).

2.    В.Н.Рыжов, Е.Е.Тареева. Бозе-конденсат ультрахолодных атомов в ловушках: бозе-бозе и бозе-ферми смеси. ТМФ 154, 149-165 (2008).

3.    А.М. Белемук, В.Н. Рыжов. О критической температуре в Бозе-Ферми смеси с притяжением между компонентами, Письма в ЖЭТФ, т. 87, вып. 7, 438-442 (2008) (JETP Letters,  87, 376 (2008)).

4.    Yu. D. Fomin, N.V. Gribova, and V.N. Ryzhov, Complex Phase Behavior of Systems with Negative Curvature Potentials, Defect and Diffusion Forum,   277, 155-160 (2008).

5.    Yu. D. Fomin, N. V. Gribova, V. N. Ryzhov, S. M. Stishov, and Daan Frenkel, Quasibinary amorphous phase in a three-dimensional system of particles with repulsive-shoulder interactions, J. Chem. Phys. 129, 064512 (2008).

6.    В.Н. Рыжов, А.Ф. Барабанов, М.В. Магницкая, Е.Е. Тареева, Теоретические исследования конденсированных сред, УФН  178, N10, 1118 (2008)(7 pp).

7.    N.V. Gribova, Yu.D. Fomin, V.N. Ryzhov, Daan Frenkel, Waterlike thermodynamic anomalies in a repulsive-shoulder potential system, Phys. Rev. E 79, 051202 (2009).

8.    Yu. D. Fomin, V. N. Ryzhov, and N. V. Gribova, Breakdown of excess entropy scaling for systems with thermodynamic anomalies, Phys. Rev. E 81,061201 (2010).

9.    A.M. Belemuk and V. N. Ryzhov, Effective Hamiltonian study of excitations in a boson-fermion mixture with attraction between components, J. Phys. B: At. Mol. Opt. Phys. 43 (2010) 225301.

10.Yu. D. Fomin, V. N. Ryzhov, and E. N. Tsiok, Complex phase behavior of the system of particles with smooth potential with repulsive shoulder and attractive well, J. Chem. Phys. 134, 044523 (2011) (ArXiv: 1008.3079v1).

11.Yu. D. Fomin and V. N. Ryzhov, Water-like Anomalies of Core-Softened Fluids: Dependence on the Trajectories in ($P \rho T$) Space, Physics Letters A  375,  2181-2184 (2011) (ArXiv: 1010.4169v1).

12.V. V. Brazhkin, Yu. D. Fomin, A. G. Lyapin, V. N. Ryzhov, and E. N. Tsiok, Widom Line for the Liquid-Gas Transition in Lennard-Jones System, J. Phys. Chem. B  115, 14112—14115 (2011), [DOI: 10.1021/jp2039898].

13.В.Н.Рыжов, Е.Е.Тареева, Ю.Д.Фомин, Особенность типа "ласточкин хвост"  и переход стекло-стекло в системе коллапсирующих твердых сфер, ТМФ  167, 284 (2011) (Theoretical and Mathematical Physics,  167(2), 645-653 (2011)).

14.V. V. Brazhkin and V. N. Ryzhov, Van der Waals supercritical fluid: Exact formulas for special lines, J. Chem. Phys. 135, 084503 (2011) [doi:10.1063/1.3627231].

15.Yu. D. Fomin, E. N. Tsiok, and V. N. Ryzhov, Core-softened system with attraction: Trajectory dependence of anomalous behavior, J. Chem. Phys. 135, 124512 (2011).

16.Yu. D. Fomin, E. N. Tsiok, and V. N. Ryzhov, Inversion of sequence of diffusion and density anomalies in core-softened systems, J. Chem. Phys. 135, 234502 (2011).

17.V.V. Brazhkin, Yu.D. Fomin, A.G. Lyapin, V.N. Ryzhov and K. Trachenko, Universal crossover of liquid dynamics in supercritical region, Pis'ma v ZhETP,  95, iss. 3, 179-184 (2012)(JETP Letters,  95, No. 3, pp. 164-169 (2012)).

18.Yu. D. Fomin, V.V. Brazhkin, V.N. Ryzhov, Transport coefficients of soft sphere fluid at high densities, Pis'ma v ZhETF,  95, iss. 6, 349-354 (2012) (JETP Letters  95, 320 (2012)).

19.V.V. Brazhkin, Yu.D. Fomin, A.G. Lyapin, V.N. Ryzhov and K. Trachenko, Two liquid states of matter: A dynamic line on a phase diagram, Phys. Rev. E  85, 031203 (2012).

20.Yu. D. Fomin, V.V. Brazhkin, V.N. Ryzhov, Isoviscosity lines and the liquid-glass transition in simple liquids, Phys. Rev. E  86, 011503 (2012).

21.В.В. Бражкин, А.Г. Ляпин, В.Н. Рыжов, К. Траченко, Ю.Д. Фомин, Е.Н. Циок, Где находится область сверхкритического флюида на фазовой диаграмме? УФН  182, N11, 1137-1156 (2012) (V V Brazhkin, A G Lyapin, V N Ryzhov, K Trachenko, Yu D Fomin, E N Tsiok, Where is the supercritical fluid on the phase diagram? Physics - Uspekhi  55 (11) 1061 - 1079 (2012) DOI: 10.3367/UFNe.0182.201211a.1137).

22.Yu. D. Fomin, E. N. Tsiok, and V. N. Ryzhov, Inversion of Sequence of Anomalies in Core-Softened Systems with Attraction, European Physical Journal - Special Topics  216, 165 (2013) (DOI: 10.1140/epjst/e2013-01739-9).

23.Yu.D. Fomin and V.N. Ryzhov, Water-like Anomalies of Core-Softened Fluids: Dependence on the Trajectories in ($P\rho T$) Space, Advances in Chemical Physics, Volume  152, p.81-100 (2013).

24.R.E. Ryltsev, N.M. Chtchelkatchev, and V.N. Ryzhov, Superfragile glassy dynamics of one component system with isotropic potential: competition of diffusion and frustration, Phys. Rev. Lett. 110, 025701 (2013).

25.Yu. D. Fomin, E. N. Tsiok, and V. N. Ryzhov, Silicalike sequence of anomalies in core-softened systems, Phys. Rev. E 87, 042122 (2013) [5 pages].

26.Yu. D. Fomin, and V. N. Ryzhov, Viscosity anomaly in core-softened liquids, Physics Letters A 377, 1469-1473 (2013).

27.Yu D Fomin, V N Ryzhov, and V V Brazhkin, Properties of liquid iron along the melting line up to Earth-core pressures, J. Phys.: Condens. Matter  25, 285104 (2013) (5pp) doi:10.1088/0953-8984/25/28/285104

28.V. V. Brazhkin, Yu. D. Fomin, A. G. Lyapin, V. N. Ryzhov, E.N. Tsiok, and Kostya Trachenko, "Liquid-Gas" Transition in the Supercritical Region: Fundamental Changes in the Particle Dynamics, Phys. Rev. Lett. 111, 145901 (2013).

29.Dima Bolmatov, V. V. Brazhkin, Yu. D. Fomin, V. N. Ryzhov, and K. Trachenko, Evidence for structural crossover in the supercritical state of matter, J. Chem. Phys. 139, 234501 (2013) (arXiv: 1308.1786)

30. V. V. Brazhkin, Yu. D. Fomin, V. N. Ryzhov, E. E. Tareyeva, and E. N. Tsiok, True Widom line for a square-well system, PHYSICAL REVIEW E 89, 042136 (2014) (arXiv: 1402.2540).

31. D.E. Dudalov, Yu.D. Fomin, E.N. Tsiok, and V.N. Ryzhov, Anomalous Melting Scenario of the Two-Dimensional Core-Softened System, Phys. Rev. Lett. 112, 157803 (2014) (arXiv:1311.7534).

32. D.E. Dudalov, Yu.D. Fomin, E.N. Tsiok, and V.N. Ryzhov, Melting Scenario of the Two-Dimensional Core-Softened System: First-Order or Continuous Transition? Journal of Physics: Conference Series 510, 012016 (2014) (doi:10.1088/1742-6596/510/1/012016).

33. D. E. Dudalov, Y. D. Fomin, E. N. Tsiok and V. N. Ryzhov, How dimensionality changes the anomalous behavior and melting scenario of a core-softened potential system? Soft Matter 10, 4966 (2014), DOI: 10.1039/C4SM00124A.

34. В.В. Бражкин, А.Г. Ляпин, В.Н. Рыжов, К. Траченко, Ю.Д. Фомин, Е.Н. Циок, Линия Френкеля и сверхкритические технологии, Сверхкритические флюиды: теория и практика, том 9, №2, стр. 40-50 (2014).

35.Yu. D. Fomin, V. N. Ryzhov, B. A. Klumov, and E. N. Tsiok, How to quantify structural anomalies in fluids? J. Chem. Phys. 141, 034508 (2014).


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