Scope of expertise: equations of state and thermodynamics for solids and minerals at high temperature and high pressure.
Belonoshko A. B., Dorogokupets P. I., Johansson B., Saxena S. K., Koci L. Ab initio equation of state for the body-centered-cubic phase of iron at high pressure and temperature // Phys. Rev. B 78, 104107 (2008)
Dewaele A., Loubeyre P., Occelli F., Mezouar M., Dorogokupets P.I., Torrent M. Hydrostatic equation of state of iron up to 205 GPa. Implications for the Earth’s core // Phys. Rev. Letters. 2006. V. 97. 215504.
Dorogokupets P.I. Equation of state for lambda transition in quartz // J. Geophys. Res. 1995. Vol. 100. No. B5. 8489-8499.
Dorogokupets, P.I., 2002. Critical analysis of equations of state for NaCl. Geochemistry International 40, Suppl 1, S132-S144.
Dorogokupets P.I., Oganov, A.R., 2003. Equations of state of Cu and Ag and revised ruby pressure scale. Doklady Earth Sciences 391A(6), 854-857.
Dorogokupets, P.I., Oganov, A.R., 2006. Equations of state of Al, Au, Cu, Pt, Ta, and W and revised ruby pressure scale. Doklady Earth Sciences 410(7), 1091-1095.
Dorogokupets, P.I., 2007. Equation of state of magnesite for the conditions of the Earth’s lower mantle. Geochemistry International 45, 561-568.
Dorogokupets, P.I., Dewaele, A., 2007. Equations of state of MgO, Au, Pt, NaCl-B1, and NaCl-B2: Internally consistent high-temperature pressure scales. High Pressure Research 27. 431-446.
Dorogokupets, P.I., Oganov, A.R., 2007. Ruby, metals, and MgO as alternative pressure scales: A semiempirical description of shock-wave, ultrasonic, x-ray, and thermochemical data at high temperatures and pressures. Physical Review B 75, 024115.
Dorogokupets, P.I., 2010. P-V-T equations of state of MgO and thermodynamics. Physics and Chemistry of Minerals 37, 677-684.
Dorogokupets, P.I., Sokolova, T.S., Danilov, B.S., Litasov, K.D., 2012. Near-absolute equations of state of diamond, Ag, Al, Au, Cu, Mo, Nb, Pt, Ta, and W for quasi-hydrostatic conditions. Geodynamics & Tectonophysics 3, 129-166. doi:10.5800/GT-2012-3-2-0067.
Dorogokupets, P.I., Dymshits, A.M., Sokolova, T.S., Danilov, B.S., Litasov, K.D., 2015. The equations of state of forsterite, wadsleyite, ringwoodite, akimotoite, MgSiO3-perovskite, and postperovskite and phase diagram for the Mg2SiO4 system at pressures of up to 130 GPa. Russian Geology and Geophysics 56(1-2), 172–189.
Litasov, K.D., Gavryushkin, P.N., Dorogokupets, P.I., Sharygin, I.S., Shatskiy, A., Fei, Y., Rashchenko, S.V., Seryotkin, Y.V., Higo, Y., Funakoshi, K., Ohtani, E., 2013a. Thermal equation of state to 33.5GPa and 1673K and thermodynamic properties of tungsten. Journal of Applied Physics 113, 133505, http://dx.doi.org/10.1063/1.4799018.
Litasov, K.D., Dorogokupets, P.I., Ohtani, E., Fei, Y., Shatskiy, A., Sharygin, I.S., Gavryushkin, P.N., Rashchenko, S.V., Seryotkin, Y.V., Higo, Y., Funakoshi, K., Chanyshev, A.D., Lobanov, S.S., 2013b. Thermal equation of state and thermodynamic properties of molybdenum at high pressures. Journal of Applied Physics 113, 093507.
Litasov, K.D., Sharygin, I.S., Dorogokupets, P.I., Shatskiy, A., Gavryushkin, P.N., Sokolova, T.S., Ohtani, E., Li, J., Funakoshi, K., 2013c. Thermal equation of state and thermodynamic properties of iron carbide Fe3C to 31 GPa and 1473 K. Journal of Geophysical Research Solid Earth 118, 5274–5284.
Litasov, K.D., Shatskiy, A., Gavryushkin, P.N., Sharygin, I.S., Dorogokupets, P.I., Dymshits, A.M., Ohtani, E., Higo Y., Funakoshi, K., 2013d. P-V-T equation of state of siderite to 33GPa and 1673K. Physics Earth and Planetary Interior 224, 83-87.
Oganov A.R., Dorogokupets P.I. All-electron and pseudopotential study of MgO: equation of state, anharmonicity, and stability // Phys. Rev. B. 2003. V. 67. Art. No. 224110.
Oganov A.R., Dorogokupets P.I. Intrinsic anharmonicity in thermodynamics and equations of state of solids // J. Phys: Сondens. Matter. 2004. V. 16. 1351–1360.
Sokolova, T.S., Dorogokupets, P.I., Litasov, K.D., 2013. Self-consistent pressure scales based on the equations of state for ruby, diamond, MgO, B2–NaCl as well as Au, Pt, and other metals to 4 Mbar and 3000 K. Russian Geology and Geophysics 54(2), 181–199.