In the present work in experiments in a diamond anvil cell at room temperature we studied the behavior of glassy carbon under high pressure up to 60 GPa by means of in situ Raman spectroscopy. Raman bands typical for glassy carbon were clearly observed in the entire pressure interval. We did not see any noticeable changes in the type of chemical bonding in glassy carbon up to the highest pressure reached. The yield strength of the material under confining pressure was found to be maximum of about 7 GPa, inconsiderably higher than that measured at ambient pressure (1.4 GPa on literature data).
REFERENCES
1.
L.
Wang
, L.
Bingbing
, L.
Hui
, W.
Yang
, Y.
Ding
, S. V.
Sinogeikin
, Y.
Meng
, Z.
Liu
, X. C.
Zeng
, and W. L.
Mao
, Science
337
, 825
(2012
).2.
Z. W.
Wang
, Y. S.
Zhao
, K.
Tait
, X. Z.
Liao
, D.
Schiferl
, C. S.
Zha
, R. T.
Downs
, J.
Qian
, Y. T.
Zhu
, and T. D.
Shen
, Proc. Natl. Acad. Sci. U.S.A.
101
, 13699
(2004
).3.
W. L.
Mao
, H.-K.
Mao
, P. J.
Eng
, T. P.
Trainor
, M.
Newville
, C.-C.
Kao
, D. L.
Heinz
, J.
Shu
, Y.
Meng
, and R. J.
Hemley
, Science
302
, 425
(2003
).4.
L.
Dubrovinsky
, N.
Dubrovinskaia
, V. B.
Prakapenka
, and A. M.
Abakumov
, Nat. Commun.
3
, 1163
(2012
).5.
J. C.
Lewis
, B.
Redfern
, and F. C.
Cowlard
, Solid-State Electron.
6
, 251
(1963
).6.
G. M.
Jenkins
and K.
Kawamura
, Polymeric Carbons—Carbon Fibre, Glass and Char
(Cambridge University Press
, 1976
), p. 178
.7.
R. E.
Franklin
, Proc. R. Soc. Lond. A
209
, 196
(1951
).8.
P. J. F.
Harris
and S. C.
Tsang
, Philos. Mag. A
76
, 667
(1997
).9.
P. J. F.
Harris
, Philos. Mag.
84
, 3159
(2004
).10.
N.
Dubrovinskaia
, L.
Dubrovinsky
, F.
Langenhorst
, S.
Jacobsen
, and C.
Liebske
, Diamond Relat. Mater.
14
, 16
(2005
).11.
T.
Irifune
, A.
Kurio
, S.
Sakamoto
, T.
Inoue
, and H.
Sumiya
, Nature (London)
421
, 599
(2003
).12.
Y.
Lin
, L.
Zhang
, H.-K.
Mao
, P.
Chow
, Y.
Xiao
, M.
Baldini
, J.
Shu
, and W. L.
Mao
, Phys. Rev. Lett.
107
, 175504
(2011
).13.
A. F.
Goncharov
, High Press. Res.
8
, 607
(1992
).14.
A.
Kurnosov
, I.
Kantor
, T.
Boffa-Ballaran
, S.
Lindhardt
, L.
Dubrovinsky
, A.
Kuznetsov
, and B. H.
Zehnder
, Rev. Sci. Instrum.
79
, 045110
(2008
).15.
H.-K.
Mao
, J.
Xu
, and P. M.
Bell
, J. Geophys. Res.
91
, 4673
, doi: (1986
).16.
F.
Tuinstra
and J. L.
Koenig
, J. Chem. Phys.
53
, 1126
(1970
).17.
D. S.
Knight
and W. B.
White
, J. Mater. Res.
4
, 385
(1989
).18.
L.
Nasdala
, D. C.
Smith
, R.
Kaindl
, and M. A.
Ziemann
, “Raman spectroscopy: Analytical perspectives in mineralogical research
,” in Spectroscopic Methods in Mineralogy, EMU Notes in Mineralogy
, edited by A.
Beran
and E.
Libowitzky
(Eotvos University Press
, 2004
), pp. 281
–343
.19.
A. C.
Ferrari
and J.
Robertson
, Phys. Rev. B
61
, 14095
(2000
).20.
K. P.
Meletov
, G. A.
Kourouklis
, D.
Christofilos
, and S.
Ves
, Phys. Rev. B
52
, 10090
(1995
).21.
Y. S.
Raptis
, D. W.
Snoke
, K.
Syassen
, S.
Roth
, P.
Bernier
, and A.
Zahab
, High Press. Res.
9
, 41
(1992
).22.
N.
Chandrabhas
, M. N.
Shashikala
, D. V. S.
Muthu
, A. K.
Sood
, and C. N. R.
Rao
, Chem. Phys. Lett.
197
, 319
(1992
).23.
S.-J.
Jeon
, D.
Kim
, S. K.
Kim
, and I. C.
Jeon
, J. Raman Spectrosc.
23
, 311
(1992
).24.
M.
Hanfland
, H.
Beister
, and K.
Syassen
, Phys. Rev. B
39
, 12598
(1989
).25.
M. I.
Eremets
, I. A.
Trojan
, P.
Gwaze
, J.
Huth
, R.
Boehler
, and V. D.
Blank
, Appl. Phys. Lett.
87
, 141902
(2005
).26.
R. S.
McWiliams
, J. H.
Eggert
, D. G.
Hicks
, D. K.
Bradley
, P. M.
Celliers
, D. K.
Spaulding
, T. R.
Boehly
, G. W.
Collins
, and R.
Jeanloz
, Phys. Rev. B
81
, 014111
(2010
).27.
R.
Jeanloz
, B. K.
Godwal
, and C.
Meade
, Nature (London)
349
, 687
(1991
).28.
E. E.
Hucke
, R. A.
Fuys
, and R. G.
Craig
, J. Biomed. Mater. Res.
7
, 263
(1973
).29.
N.
Dubrovinskaia
, L.
Dubrovinsky
, R.
Caracas
, and M.
Hanfland
, Appl. Phys. Lett.
97
, 251903
(2010
).© 2013 American Institute of Physics.
2013
American Institute of Physics
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