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Steele, B. A., Stavrou, E., Prakapenka, V. B., et al. High-Pressure Equation of State of 1,3,5-triamino-2,4,6-trinitrobenzene: Insights into the Monoclinic Phase Transition, Hydrogen Bonding, and Anharmonicity[J]. The journal of physical chemistry. A, 124(50):10580-10591.Search in Google Scholar
Fredenburg, D. A., Thadhani, N. N. High-pressure equation of state properties of bismuth oxide[J]. Journal of Applied Physics, 2011, 110(6):1433.Search in Google Scholar
Niewa, R., Rau, D., Wosylus, A., et al. High-Pressure, High-Temperature Single-Crystal Growth, Ab initio Electronic Structure Calculations, and Equation of State of ε-Fe3N1+x[J]. Chemistry of Materials, 2009, 21(2):392-398.Search in Google Scholar
Kozlova, S. A., Gubin, S. A., Maklashova, I. V., et al. Molecular-dynamic simulations of the thermophysical properties of hexanitrohexaazaisowurtzitane single crystal at high pressures and temperatures[J]. Russian Journal of Physical Chemistry A, 2017, 91(11):2157-2160.Search in Google Scholar
Leversee, R. A., Zaug, J. M., Sain, J. D., et al. High-pressure isothermal equation of state of composite materials: A case study of LX-17 polymer bonded explosive[J]. Applied Physics Letters, 2019, 115(5):051902.Search in Google Scholar
Johari, G. P., Andersson, O. Structural relaxation and thermal conductivity of high-pressure formed, high-density din-butyl phthalate glass and pressure induced departures from equilibrium state[J]. Journal of Chemical Physics, 2017, 146(23):1766-71.Search in Google Scholar
Alencious, S. Z., Wang, L., Zhi-Heng, L. Pulse propagation in hollow-core fiber at high-pressure regime: application to compression of tens of µJ pulses and determination of nonlinear refractive index of xenon at 103 µm: publisher’s note[J]. Applied Optics, 2018, 57(22):6496.Search in Google Scholar
Syassen, K., Holzapfel, W. B. Isothermal compression of Al and Ag to 120 kbar[J]. Journal of Applied Physics, 1978, 49(8): 4427-4430.Search in Google Scholar
Vocadlo, L., Poirer, J. P., Price, G. D. Grüneisen parameters and isothermal equations of state[J]. American Mineralo-gist, 2000, 85(2): 390-395.Search in Google Scholar
Shanker, J., Kushwah, S. S., Sharma, M. P. On the universality of phenomenological isothermal equations of state for solids[J]. Physica B: Condensed Matter, 1999, 271(1-4): 158-164.Search in Google Scholar
Hrubiak, R., Drozd, V., Karbasi, A., et al. High PT phase transitions and PVT equation of state of hafnium[J]. Journal of Applied Physics, 2012, 111(11): 112612.Search in Google Scholar
Akahama, Y., Kawamura, H., Singh, A. K. Equation of state of bismuth to 222 GPa and comparison of gold and platinum pressure scales to 145 GPa[J]. Journal of applied physics, 2002, 92(10): 5892-5897.Search in Google Scholar
Al’Tshuler, L. V., Kormer, S. B., Bakanova, A. A., et al. Equation of state for aluminum, copper, and lead in the high pressure region[J]. Sov. Phys. JETP, 1960, 11: 573-579.Search in Google Scholar
Bringa, E. M., Cazamias, J. U., Erhart, P., et al. Atomistic shock Hugoniot simulation of single-crystal copper[J]. Journal of Applied Physics, 2004, 96(7): 3793-3799.Search in Google Scholar
Agarwal, G., Dongare, A. M.. Atomistic study of shock Hugoniot of single crystal Mg[C]. AIP Conference Proceedings. AIP Publishing, 2017, 1793(1): 070004.Search in Google Scholar
Mackenchery, K., Dongare, A. Shock Hugoniot behavior of single crystal titanium using atomistic simulations[C]. AIP Conference Proceedings. AIP Publishing, 2017, 1793(1): 070001.Search in Google Scholar
Walsh, J. M., Christian, R. H. Equation of state of metals from shock wave measurements[J]. Physical review, 1955, 97(6): 1544.Search in Google Scholar
Walsh, J. M., Rice, M. H., Mc Queen, R. G., et al. Shock-wave compressions of twenty-seven metals. Equations of state of metals[J]. Physical Review, 1957, 108(2): 196.Search in Google Scholar
Mc Queen, R. G., Marsh, S. P. Equation of state for nineteen metallic elements from shock-wave measurements to two megabars[J]. Journal of Applied Physics, 1960, 31(7): 1253-1269.Search in Google Scholar
Nellis, W. J., Mitchell, A. C., Young, D. A. Equation-of-state measurements for aluminum, copper, and tantalum in the pressure range 80–440 GPa (0.8–4.4 Mbar)[J]. Journal of Applied Physics, 2003, 93(1): 304-310.Search in Google Scholar
Jin, K., Wu, Q., Jing, F., et al. Simple method for reducing shock-wave equation of state to zero Kelvin isotherm for metals[J]. Journal of Applied Physics, 2009, 105(4): 043510.Search in Google Scholar
Yang, X., Zeng, X., Chen, H., et al. Molecular dynamics investigation on complete Mie-Grüneisen equation of state: Al and Pb as prototypes[J]. Journal of Alloys and Compounds, 2019, 808: 151702.Search in Google Scholar
Jimin, C., Sanghyuk, Y., Soonho, S., et al. Molecular dynamics study of Hugoniot relation in shocked nickel single crystal[J]. Journal of Mechanical Science & Technology, 2018, 32(7):3273-3281.Search in Google Scholar
Xun, Z., Sheng, S., Tao, X. U., et al. Temperature dependent Grüneisen parameter[J]. Science in China: Technological Science, 2019, 062(009):1565-1576.Search in Google Scholar
Ji, C., He, Y., Wang, C. T. et al. Investigation on shock-induced reaction characteristics of an Al/Ni composite processed via accumulative roll-bonding[J]. Materials & design, 2016, 116(feb.):591-598.Search in Google Scholar
Millett, J., Gray, G. T., Bourne, N. The shock Hugoniot of the intermetallic alloy Ti–46.5Al–2Nb–2Cr[J]. Journal of Applied Physics, 2000, 88(6):3290-3294.Search in Google Scholar
Sanditov, D. S., Mashanov, A. A. On the Leontiev Formula for the Grüneisen Parameter of Solid States[J]. Physics of the Solid State, 2021, 63(2):355-361.Search in Google Scholar
NOSé, SH[Ubar]ICHI. A molecular dynamics method for simulations in the canonical ensemble[J]. Molecular Physics, 2002, 100(1):191-198.Search in Google Scholar
Shimamura, K, Misawa, M, Ohmura, S, et al. Crystalline anisotropy of shock-induced phenomena: Omni-directional multiscale shock technique[J]. Applied Physics Letters, 2016, 108(7):071901.Search in Google Scholar
Cheng, G. J, Shehadeh, M. A. Multiscale dislocation dynamics analyses of laser shock peening in silicon single crystals[J]. International Journal of Plasticity, 2006, 22(12):2171-2194.Search in Google Scholar
Shimamura, K., Shimojo, F., Nakano, A., et al. Meteorite impacts on ancient oceans opened up multiple NH3 production pathways[J]. Physical Chemistry Chemical Physics, 2017, 19(18):11655-11667.Search in Google Scholar
Reed, E, J., Fried, L. E., Manaa, M. R., et al. A Method for Tractable Dynamical Studies of Single and Double Shock Compression[C]. American Institute of Physics. American Institute of Physics, 2004.Search in Google Scholar
Liu, J., Zheng, B.L., Yang, B., et al. Ballistic impact behavior of nickel-based alloy sheet at different temperatures[J]. Journal of Aeronautical Materials, 2019, 39(01):79-88.Search in Google Scholar