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W2223492723 abstract "We report pure carbon-based superlattices that exhibit direct band gaps and excellent optical absorption and emission properties at the threshold energy. The structures are nearly identical to that of cubic diamond except that defective layers characterized by five- and seven-membered rings are intercalated in the diamond lattice. The direct band gaps lie in the range of 5.6~5.9 eV, corresponding to wavelengths of 210~221 nm. The dipole matrix elements of direct optical transition are comparable to that of GaN, suggesting that the superlattices are promising materials as an efficient deep ultraviolet light emitter. Molecular dynamics simulations show that the superlattices are thermally stable even at a high temperature of 2000 K. We provide a possible route to the synthesis of superlattices through wafer bonding of diamond (100) surfaces." @default.
W2223492723 created "2016-06-24" @default.
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W2223492723 date "2016-02-04" @default.
W2223492723 modified "2023-09-24" @default.
W2223492723 title "Direct band gap carbon superlattices with efficient optical transition" @default.
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W2223492723 cites W1970741930 @default.
W2223492723 cites W1974224232 @default.
W2223492723 cites W1976449254 @default.
W2223492723 cites W1977262989 @default.
W2223492723 cites W1977725327 @default.
W2223492723 cites W1979324267 @default.
W2223492723 cites W1979544533 @default.
W2223492723 cites W1981368803 @default.
W2223492723 cites W1981872585 @default.
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W2223492723 cites W1984790437 @default.
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W2223492723 cites W1994684381 @default.
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W2223492723 cites W2000566427 @default.
W2223492723 cites W2002929251 @default.
W2223492723 cites W2005779271 @default.
W2223492723 cites W2007395042 @default.
W2223492723 cites W2010160036 @default.
W2223492723 cites W2011384049 @default.
W2223492723 cites W2011493919 @default.
W2223492723 cites W2012629171 @default.
W2223492723 cites W2014094922 @default.
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W2223492723 cites W2023789912 @default.
W2223492723 cites W2033233736 @default.
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W2223492723 cites W2081643155 @default.
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W2223492723 cites W2090166291 @default.
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W2223492723 cites W2095076988 @default.
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W2223492723 cites W2109533163 @default.
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W2223492723 doi "https://doi.org/10.1103/physrevb.93.085201" @default.
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