References
- Bundy FP. Melting of graphite at very high pressure. J Chem Phys. 1963;38:618–630.
- Bundy FP. Direct conversion of graphite to diamond in static pressure apparatus. J Chem Phys. 1963;38:631–643.
- Togaya M. Melting behaviors of carbon underhigh pressures. High Press Res [Internet]. 2006 [cited 2022 Aug 3];4:342–344. Available from: https://www.tandfonline.com/doi/abs/10.108008957959008246116.
- Liang A, Liu Y, Shi L, et al. Melting temperature of diamond and cubic boron nitride at 15 gigapascals. Phys Rev Res. 2019;033090,1–11.
- Weathers MS, Bassett WA. Melting of carbon at 50 to 300 kbar. Phys Chem Miner. 1987;15:105–112.
- Alder BJ, Christian RH. Behavior of strongly shocked carbon. Phys Rev Lett. 1961;7:10–15.
- Shaner JW, Brown JM, Swenson CA, et al. Sound velocity of carbon at high pressures. Le J Phys Colloq. 1984;45:235–237.
- Kondo K, Ahrens TJ. Shock compression of diamond crystal. Geophys Res Lett. 1983;10:281–284.
- Nellis WJ, Mitchell AC, McMahan AK. Carbon at pressures in the range 0.1-1 TPa (10 Mbar). J Appl Phys. 2001;90:696–698.
- Bradley DK, Eggert JH, Hicks DG, et al. Shock compressing diamond to a conducting fluid. Phys Rev Lett. 2004;93:1–4.
- Brygoo S, Henry E, Loubeyre P, et al. Laser-shock compression of diamond and evidence of a negative-slope melting curve. Nat Mater. 2007;6:274–277.
- Bradley D, Eggert J, Smith R, et al. Diamond at 800∼GPa. Phys Rev Lett. 2009;102:75503.
- Eggert JH, Hicks DG, Celliers PM, et al. Melting temperature of diamond at ultrahigh pressure. Nat Phys [Internet]. 2010;6:40–43. doi:10.1038/nphys1438.
- Knudson MD, Desjarlais MP, Dolan DH. Shock-wave exploration of the high-pressure phases of carbon. Science. 2008;322:1822–1825.
- Smith RF, Eggert JH, Jeanloz R, et al. Ramp compression of diamond to five terapascals. Nature. 2014;511:330–333.
- Lazicki A, McGonegle D, Rygg JR, et al. Metastability of diamond ramp-compressed to 2 terapascals. Nature [Internet]. 2021 [cited 2021 Feb 2];589:532–535. Available from: http://www.nature.com/articles/s41586-020-03140-4.
- Bundy FP. The P, Tphase and reaction diagram for elemental carbon, 1979. J Geophys Res. 1980;85:6930.
- Biswas R, Martin RM, Needs RJ, et al. Complex tetrahedral structures of silicon and carbon under pressure. Phys Rev B. 1984;30:3210–3213.
- Biswas R, Martin RM, Needs RJ, et al. Stability and electronic properties of complex structures of silicon and carbon under pressure: Density-functional calculations. Phys Rev B. 1987;35:9559–9568.
- Yin MT, Cohen ML. Will diamond transform under megabar pressures? Phys Rev Lett. 1983;50:2006–2009.
- Clark SJ, Ackland GJ, Crain J. Theoretical stability limit of diamond at ultrahigh pressure. Phys Rev B. 1995;52:15035–15038.
- Gustafson P. An evaluation of the thermodynamic properties and the P, T phase diagram of carbon. Carbon NY. 1986;24:169–176. doi:10.1016/0008-6223(86)90113-2.
- Correa A, Bonev SA, Galli G. Carbon under extreme conditions: phase boundaries and electronic properties from first-principles theory. Proc Natl Acad Sci USA. 2006;103:1204–1208. Available from: http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1345714&tool=pmcentrez&rendertype=abstract.
- Galli G, Martin RM, Car R, et al. Melting of diamond at high pressure. Science. 1990;250:1547–1549.
- Ghiringhelli L, Los J, Meijer E, et al. Modeling the phase diagram of carbon. Phys Rev Lett 2005;94:145701.
- Glosli JN, Ree FH. The melting line of diamond determined via atomistic computer simulations. J Chem Phys. 1999;110:441–446.
- Grumbach M, Martin R. Phase diagram of carbon at high pressures and temperatures. Phys Rev B. 1996;54:15730–15741.
- Romero NA, Mattson WD. Density-functional calculation of the shock Hugoniot for diamond. Phys Rev B – Condens Matter Mater Phys. 2007;76:1–8.
- Wang X, Scandolo S, Car R. Carbon phase diagram from ab initio molecular dynamics. Phys Rev Lett. 2005;95:95–98.
- Karandikar A, Boehler R. Flash melting of tantalum in a diamond cell to 85 GPa. Phys Rev B. 2016;93:1–6.
- Yang L, Karandikar A, Boehler R. Flash heating in the diamond cell: Melting curve of rhenium. Rev Sci Instrum. 2012;83:063905.
- Bundy FP. Diagram for carbon; updated. Science. 1996;34:141–153.
- Boehler R. New diamond cell for single-crystal x-ray diffraction. Rev Sci Instrum. 2006;77:115103.
- Boehler R. High-pressure experiments and the phase diagram of lower mantle and core materials. Rev Geophys. 2000;38:221–225.
- Togaya M. Pressure dependences of the melting temperature of graphite and the electrical resistivity of liquid carbon. Phys Rev Lett 1997;79:2474–2477.
- Kondratyev AM, Rakhel AD. Melting line of graphite. Phys Rev Lett [Internet]. 2019 [cited 2022 Feb 1];122:175702. Available from: https://journals.aps.org/prl/abstract/10.1103PhysRevLett.122.175702.
- Musella M, Ronchi C, Brykin M, et al. The molten state of graphite: An experimental study. J Appl Phys. 1998;84:2530–2537.
- Togaya M. Pressure dependences of the melting temperature of graphite and the electrical resistivity of liquid carbon. Phys Rev Lett 1997;79:2474–2477. Available from: http://link.aps.org/doi/10.1103PhysRevLett.79.2474.
- Bundy FP, Bassett WA, Weathers MS, et al. The pressure-temperature phase and transformation diagram for carbon; updated through 1994. Carbon NY. 1996;34:141–153. doi:10.1016/0008-6223(96)00170-4.
- Reich S, Thomsen C. Raman spectroscopy of graphite. Philos Trans A Math Phys Eng Sci. 2004;362:2271–2288.
- Chudinovskikh L, Boehler R. MgSiO3 phase boundaries measured in the laser-heated diamond cell. Earth Planet Sci Lett 2004;219:285–296. doi:10.1016/S0012-821X(04)00005-6.
- Chudinovskikh L, Boehler R. High-pressure polymorphs of olivine and the 660-km seismic discontinuity. Nature. 2001;411:574–577.
- Modest MF. Radiative heat transfer. 2nd ed. McGraw-Hill, New York: Elsevier Inc.; 2003.
- Bundy FP, Bovenkerk HP, Strong HM, et al. Diamond-graphite equilibrium line from growth and graphitization of diamond. J Chem Phys. 1961;35:383–391.
- Kennedy CS, Kennedy GC. The equilibrium boundary between graphite and diamond. J Geophys Res. 1976;81:2467–2470.
- Togaya M. Melting behaviors of carbon underhigh pressures. High Press Res. 1990;4:342–344.
- Glosli JN, Ree FH. The melting line of diamond determined via atomistic computer simulations. J Chem Phys. 1999;110:441–446.
- Van Thiel M, Ree FH. Thermodynamic properties and phase diagram of the graphite-diamond-liquid carbon system. High Press Res. 1992;10:607–627.
- Galli G. Diamond melting and liquid carbon. Phys Scr. 1991;T39:148–150.
- Romero N, Mattson W. Density-functional calculation of the shock Hugoniot for diamond. Phys Rev B. 2007;76:214113.
- Koizumi S, Nebel C, Nesladek M. Physics and applications of CVD diamond. Wiley, Weinheim: Wiley-VCH; 2008.