1 IPPLM Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland
2 CNRS, CEA, CELIA, Universite de Bordeaux, Talence, France
3 Donostia International Physics Center (DIPC), Donostia-San Sebastian, Basque Country, Spain
4 Department of Earth and Environmental Sciences, University of Milano-Bicocca, Milano, Italy
5 Fisika Aplikatua 1 Saila, Ingeniaritza Eskola, University of the Basque Country (UPV/EHU), Basque Country, Spain & Centro de Física de Materiales (CSIC-UPV/EHU), Donostia/San Sebastian, Basque Country, Spain
6 Department of Plasma Physics, National Research Nuclear University MEPhI, Moscow, Russia
7 Joint Institute for High Temperature RAS, Moscow, Russia
8 GSI Helmholtzzentrum für Schwerionenforschung GmbH, Darmstadt, Germany
9 Dipartimento di Ingegneria Industriale, Università degli studi di Roma “Tor Vergata”, Roma, Italy
10 Institute for Microelectronics and Microsystems - CNR, Roma, Italy
11 IGRRE - Joint Institute for High Temperatures RAS, Makhachkala, Russia
12 Department of Physics “G. Occhialini”, University of Milano-Bicocca, Milano, Italy
Copy Citation Text
K. Jakubowska, D. Mancelli, R. Benocci, J. Trela, I. Errea, A. S. Martynenko, P. Neumayer, O. Rosmej, B. Borm, A. Molineri, C. Verona, D. Cannatà, A. Aliverdiev, H. E. Roman, D. Batani. Reflecting laser-driven shocks in diamond in the megabar pressure range[J]. High Power Laser Science and Engineering, 2021, 9(1): 010000e3.
References
[1]J. A.Van Vechten, 7, 1479 (1973).
[2]R.Grover, 71, 3824 (1979).
[3]M. T.Yin and M. L.Cohen, 50, 2006 (1983).
[4]M. T.Yin and M. L.Cohen, 30, 1773 (1984).
[5]R.Biswas, R. M.Martin, R. J.Needs, and O. H.Nielsen, 30, 3210 (1984).
[6]S.Fahy and S. G.Louie, 36, 3373 (1987).
[7]M.Grumbach and R.Martin, 54, 15730 (1996).
[8]S.Scandolo, G. L.Chiarotti, and E.Tosatti, 53, 5051 (1996).
[9]T.Sekine, 74, 350 (1999).
[10]A. A.Correa, L. X.Benedict, D. A.Young, E.Schwegler, and S. A.Bonev, 78, 024101 (2008).
[11]L. X.Benedict, K. P.Driver, S.Hamel, B.Militzer, T.Qi, A. A.Correa, A.Saul, and E.Schwegler, 89, 224109 (2014).
[12]M.Schöttler, M.French, D.Cebulla, and R.Redmer, 28, 145401 (2016).
[13]J.Vorberger, K. U.Plageman, and R.Redmer, 35, 100737 (2020).
[14]H. K.Mao, 200, 1145 (1978).
[15]F. P.Bundy, 85, 6930 (1980).
[16]A. L.Ruoff and H.Luo, 70, 2066 (1991).
[17]J. W.Shaner, J. M.Brown, D. A.Swenson, and R. G.McQueen, 45, 232 (1984).
[20]M. C.Gregor, D. E.Fratanduono, C. A.McCoy, D. N.Polsin, A.Sorce, J. R.Rygg, G. W.Collins, T.Braun, P. M.Celliers, J. H.Eggert, D. D.Meyerhofer, and T. R.Boehly, 95, 144114 (2017).
[21]L. R.Benedetti, J. H.Nguyen, W. A.Caldwell, H.Liu, M.Kruger, and R.Jeanloz, 286, 100 (1999).
[22]A.Cavalleri, K.Sokolowski-Tinten, D.von der Linde, I.Spagnolatti, M.Bernasconi, G.Benedek, A.Podestá, and P.Milani, 57, 281 (2002).
[23]W. J.Nellis, D. C.Hamilton, N. C.Holmes, H. B.Radousky, F. H.Ree, A. C.Mitchell, and M.Nicol, 240, 779 (1988).
[24]N. F.Ness, M. H.Acuña, K. W.Behannon, L. F.Burlaga, J. E.Connerney, R. P.Lepping, and F. M.Neubauer, 233, 85 (1986).
[25]F. P.Bundy, 156, 169 (1989).
[26]D.Saumon, G.Chabrier, and H. M.Van Horn, 99, 713 (1995).
[29]P.Butler, S. S.Vogt, G. W.Marcy, D. A.Fischer, J. T.Wright, G. W.Henry, G.Laughlin, and J. J.Lissauer, 617, 580 (2004).
[30]M.Bailes, S. D.Bates, V.Bhalerao, N. D. R.Bhat, M.Burgay, S.Burke-Spolaor, N.D'Amico, S.Johnston, M. J.Keith, M.Kramer, S. R.Kulkarni, L.Levin, A. G.Lyne, S.Milia, A.Possenti, L.Spitler, B.Stappers, and W.van Straten, 333, 1717 (2011).
[31]M.Ross, 292, 435 (1981).
[32]M.Ross, 48, 1 (1985).
[33]W. J.Nellis, N. C.Holmes, A. C.Mitchell, D. C.Hamilton, and M.Nicol, 107, 9096 (1997).
[34]F.Ancillotto, 275, 1288 (1997).
[35]N. F.Ness, L. F.Burlaga, J. E.Connerney, R. P.Lepping, and F. M.Neubauer, 246, 1473 (1989).
[36]J. E.Connerney, M. H.Acuña, and N. F.Ness, 92, 15329 (1987).
[37]J. H.Eggert, D. G.Hicks, P. M.Celliers, D. K.Bradley, R. S.McWilliams, R.Jeanloz, J. E.Miller, T. R.Boehly, and G. W.Collins, 6, 40 (2010).
[38]D.Kraus, J.Vorberger, A.Pak, N. J.Hartley, L. B.Fletcher, S.Frydrych, E.Galtier, E. J.Gamboa, D. O.Gericke, S. H.Glenzer, E.Granados, M. J.MacDonald, A. J.MacKinnon, E. E.McBride, I.Nam, P.Neumayer, M.Roth, A. M.Saunders, A. K.Schuster, P.Sun, T.van Driel, T.Döppner, and R. W.Falcone, 1, 606 (2017).
[39]R.Ramis, R.Schmalz, and J.Meyer-Ter-Vehn, 49, 475 (1988).
[40]M.Koenig, B.Faral, J. M.Boudenne, D.Batani, A.Benuzzi, and S.Bossi, 50, R3314 (1994).
[57]A.Benuzzi-Mounaix, M.Koenig, G.Huser, B.Faral, N.Grandjouan, D.Batani, E.Henry, M.Tomasini, T. A.Hall, and F.Guyot, 70, 045401 (2004).
[58]G. I.Kerley and L.Chhabildas, “Multicomponent-multiphase equation of state for carbon,” Sandia National Laboratories, Report No. SAND2001-2619 (2001).
[59]N. A.Romero and W. D.Mattson, 76, 214113 (2007).
[60]H.Nagao, K. G.Nakamura, K.Kondo, N.Ozaki, K.Takamatsu, T.Ono, T.Shiota, D.Ichinose, K. A.Tanaka, K.Wakabayashi, K.Okada, M.Yoshida, M.Nakai, K.Nagai, K.Shigemori, T.Sakaiya, and K.Otani, 13, 052705 (2006).
[61]M. D.Knudson, M. P.Desjarlais, and D. H.Dolan, 322, 1822 (2008).
[62]D. KBradley, J. H.Eggert, D. G.Hicks, P. M.Celliers, S. J.Moon, R. C.Cauble, and G. W.Collins, 93, 195506 (2004).
[63]M.van Thiel and F. H.Ree, 10, 607 (1992).
[64]S. H.Glenzer, L. B.Fletcher, H. J.Lee, M. J.MacDonald, U.Zastrau, M.Gauthier, D. O.Gericke, J.Vorberger, E.Granados, J. B.Hastings, and E. J.Gamboa, “Plasmon scattering probing of electronic states in diamond at extreme conditions,” SLAC National Accelerator Laboratory, Report No. SLAC-UB-16770 (2016).
[65]E. J.Gamboa, L. B.Fletcher, H. J.Lee, U.Zastrau, E.Galtier, M. J.MacDonald, M.Gauthier, J.Vorberger, D. O.Gericke, E.Granados, J. B.Hastings, and S. H.Glenzer, 22, 056319 (2015).
[66]P. M.Celliers, G. W.Collins, D. G.Hicks, M.Koenig, E.Henry, A.Benuzzi-Mounaix, D.Batani, D. K.Bradley, L. B.Da Silva, R. J.Wallace, S. J.Moon, J. H.Eggert, K. K. M.Lee, L. R.Benedetti, R.Jeanloz, I.Masclet, N.Dague, B.Marchet, M.Rabec Le Gloahec, Ch.Reverdin, J.Pasley, O.Willi, D.Neely, and C.Danson, 11, L41 (2004).
[67]C.Kittel and H.Kroemer, , 2nd ed. (Freeman, 1980).
[68]W. J.Nellis, A. A.Louis, and N. W.Ashcroft, 356, 119 (1998).
[69]W. J.Nellis, S. T.Weir, and A. C.Mitchell, 59, 3434 (1999).
[70]Y. P.Varshni, 34, 149 (1967).
[71]S.Logothetidis, J.Petalas, H. M.Polatoglou, and D.Fuchs, 46, 4483 (1992).
[72]C.-C.Li, M.Gong, X.-D.Chen, L.Shen, and F.-W.Sun, 74, 119 (2017).
[73]F.Karsai, M.Engel, E.Flage-Larsen, and G.Kresse, 20, 123008 (2018).
[74]Z.Zhang, Y.Zhao, and J.Yang, 23, 043301 (2016).
K. Jakubowska, D. Mancelli, R. Benocci, J. Trela, I. Errea, A. S. Martynenko, P. Neumayer, O. Rosmej, B. Borm, A. Molineri, C. Verona, D. Cannatà, A. Aliverdiev, H. E. Roman, D. Batani. Reflecting laser-driven shocks in diamond in the megabar pressure range[J]. High Power Laser Science and Engineering, 2021, 9(1): 010000e3.