Диссертация (1150477), страница 21
Текст из файла (страница 21)
� P. 871.36. Shikin A. M., Rybkina A. A., Rybkin A. G., Klimovskikh I. I., Skirdkov P. N., Zvezdin K. A.,Zvezdin A. K. Spin current formation at the graphene/Pt interface for magnetization manipulation in magnetic nanodots // Applied Physics Letters. � 2014. � Vol. 105. � P. 042407.37. Huertas-Hernando D., Guinea F., Brataas A. Spin-orbit coupling in curved graphene,fullerenes, nanotubes, and nanotube caps // Phys. Rev. B. � 2006. � Vol.
74. � P. 155426.38. Gmitra M., Kochan D., Fabian J. Spin-Orbit coupling in hydrogenated graphene // Phys.Rev. Lett. � 2013. � Vol. 110. � P. 246602.39. Balakrishnan J., Kok Wai Koon G., Jaiswal M., Castro Neto A. H., Ozyilmaz B. Colossalenhancement of spin-orbit coupling in weakly hydrogenated graphene // Nat Phys. � 2013.� Vol. 9. � P. 284.40. Balakrishnan J., Koon G. K. W., Avsar A., Ho Y., Lee J. H., Jaiswal M., Baeck S.-J.,Ahn J.-H., Ferreira A., Cazalilla M.
A., Neto A. H. Castro, Özyilmaz B. Giant spin Halleffect in graphene grown by chemical vapour deposition // Nature Communications. � 2014.� Vol. 5. � P. 4748.41. Shikin A. M., Rybkin A. G., Marchenko D., Rybkina A. A., Scholz M. R., Rader O.,Varykhalov A. Induced spin–orbit splitting in graphene: the role of atomic number of theintercalated metal and ⇡ –d hybridization // New Journal of Physics. � 2013.
� Vol. 15. �P. 013016.42. Marchenko D., Varykhalov A., Scholz M. R., Bihlmayer G., Rashba E. I., Rybkin A.,Shikin A. M., Rader O. Giant Rashba splitting in graphene due to hybridization with gold //Nature Communications. � 2012. � Vol. 3. � P. 1232.10443. Shikin A. M., Rybkin A. G., Marchenko D. E., Usachov D.
Yu., Adamchuk V. K.,Varykhalov A. Yu., Rader O. Substrate-induced spin-orbit splitting of quantum-well andinterface states in Au, Ag, and Cu layers of different thicknesses on W(110) and Mo(110)surfaces // Physics of the Solid State. � 2010. � Vol. 52. � P. 1515.44. Rybkin A. G., Shikin A. M., Marchenko D., Varykhalov A., Rader O. Spin-dependentavoided-crossing effect on quantum-well states in Al/W(110) // Phys. Rev. B.
� 2012.� Vol. 85. � P. 045425.45. Marchenko D., Sánchez-Barriga J., Scholz M. R., Rader O., Varykhalov A. Spin splittingof Dirac fermions in aligned and rotated graphene on Ir(111) // Phys. Rev. B. � 2013. �Vol. 87. � P. 115426.46. Zhizhin E. V., Varykhalov A., Rybkin A. G., Rybkina A. A., Pudikov D. A., Marchenko D.,Sánchez-Barriga J., Klimovskikh I.
I., Vladimirov G. G., Rader O., Shikin A. M. Spin splitting of Dirac fermions in graphene on Ni intercalated with alloy of Bi and Au // Carbon. �2015. � Vol. 93. � P. 984.47. Hu J., Alicea J., Wu R., Franz M. Giant topological insulator gap in Graphene with 5dadatoms // Phys. Rev. Lett. � 2012. � Vol. 109. � P. 266801.48. Weeks C., Hu J., Alicea J., Franz M., Wu R.
Engineering a robust quantum spin Hall statein graphene via adatom deposition // Phys. Rev. X. � 2011. � Vol. 1. � P. 021001.49. Calleja F., Ochoa H., Garnica M., Barja S., Navarro J. J., Black A., Otrokov M. M.,Chulkov E. V., Arnau A., Vazquez de Parga A. L., Guinea F., Miranda R. Spatial variation of a giant spin-orbit effect induces electron confinement in graphene on Pb islands //Nat Phys. � 2015. � Vol.
11. � P. 43.50. Brey L. Spin-orbit coupling in graphene induced by adatoms with outer-shell p orbitals //Phys. Rev. B. � 2015. � Vol. 92. � P. 235444.51. Laughlin R. B. Quantized Hall conductivity in two dimensions // Phys. Rev. B. � 1981. �Vol. 23. � P. 5632.52. Halperin B.
I. Quantized Hall conductance, current-carrying edge states, and the existenceof extended states in a two-dimensional disordered potential // Phys. Rev. B. � 1982. �Vol. 25. � P. 2185.10553. Thouless D. J., Kohmoto M., Nightingale M. P., den Nijs M. Quantized hall conductance ina two-dimensional periodic potential // Phys. Rev.
Lett. � 1982. � Vol. 49. � P. 405.54. Klitzing K. v., Dorda G., Pepper M. New method for high-accuracy determination of thefine-structure constant based on quantized Hall resistance // Phys. Rev. Lett. � 1980. �Vol. 45. � P. 494.55. Bernevig A. B., Hughes T. L., Zhang S.-C. Quantum spin Hall effect and topological phasetransition in HgTe quantum wells // Science. � 2006. � Vol. 314.
� P. 1757.56. König M., Wiedmann S., Brüne C., Roth A., Buhmann H., Molenkamp L. W., Qi X.-L.,Zhang S.-C. Quantum spin Hall insulator state in HgTe quantum wells // Science. � 2007.� Vol. 318. � P. 766.57. Kane C. L., Mele E. J. Z2 topological order and the quantum spin Hall effect // Phys. Rev.Lett. � 2005. � Vol. 95. � P. 146802.58. Sheng D. N., Weng Z. Y., Sheng L., Haldane F. D. M. Quantum spin-Hall effect and topologically invariant Chern numbers // Phys. Rev.
Lett. � 2006. � Vol. 97. � P. 036808.59. Hasan M. Z., Kane C. L. Colloquium // Rev. Mod. Phys. � 2010. � Vol. 82. � P. 3045.60. Bieniek M., Woźniak T., Potasz P. Study of spin-orbit coupling effect on bismuth (111)bilayer // Acta Physica Polonica A. � 2016. � Vol. 130. � P. 609.61. Takayama A., Sato T., Souma S., Oguchi T., Takahashi T.
One-dimensional edge stateswith giant spin splitting in a bismuth thin film // Phys. Rev. Lett. � 2015. � Vol. 114. �P. 066402.62. Murakami S. Quantum spin Hall effect and enhanced magnetic response by spin-orbit coupling // Phys. Rev. Lett. � 2006. � Vol. 97. � P. 236805.63. Liu Z., Liu C.-X., Wu Y.-S., Duan W.-H., Liu F., Wu J. Stable nontrivial Z2 topology inultrathin Bi (111) films: A first-principles study // Phys. Rev.
Lett. � 2011. � Vol. 107. �P. 136805.64. Wada M., Murakami S., Freimuth F., Bihlmayer G. Localized edge states in two-dimensionaltopological insulators: Ultrathin Bi films // Phys. Rev. B. � 2011. � Vol. 83. � P. 121310.10665. Drozdov I. K., Alexandradinata A., Jeon S., Nadj-Perge S., Ji H., Cava R. J., Bernevig A. B.,Yazdani A. One-dimensional topological edge states of bismuth bilayers // Nat Phys. � 2014.� Vol. 10.
� P. 664.66. Fu L., Kane C. L., Mele E. J. Topological insulators in three dimensions // Phys. Rev. Lett.� 2007. � Vol. 98. � P. 106803.67. Moore J. E., Balents L. Topological invariants of time-reversal-invariant band structures //Phys. Rev. B.
� 2007. � Vol. 75. � P. 121306.68. Волков Б.А., Панкратов О.А. Безмассовые двумерные электроны в инверсном контакте // Письма в ЖЭТФ. � 1985. � Т. 42. � С. 145.69. Hsieh D., Qian D., Wray L., Xia Y., Hor Y. S., Cava R. J., Hasan M. Z. A topologicalDirac insulator in a quantum spin Hall phase // Nature. � 2008. � Vol. 452. � P. 970.70. Hsieh D., Xia Y., Wray L., Qian D., Pal A., Dil J. H., Osterwalder J., Meier F., Bihlmayer G., Kane C.
L., Hor Y. S., Cava R. J., Hasan M. Z. Observation of unconventionalquantum spin textures in topological insulators // Science. � 2009. � Vol. 323. � P. 919.71. Moore J. Topological insulators: The next generation // Nat Phys. � 2009. � Vol. 5. �P. 378.72. Zhang H., Liu C.-X., Qi X.-L., Dai X., Fang Z., Zhang S.-C. Topological insulators in Bi2 Se3 ,Bi2 Te3 and Sb2 Te3 with a single Dirac cone on the surface // Nat Phys. � 2009. � Vol.
5.� P. 438.73. Xia Y., Qian D., Hsieh D., Wray L., Pal A., Lin H., Bansil A., Grauer D., Hor Y. S.,Cava R. J., Hasan M. Z. Observation of a large-gap topological-insulator class with a singleDirac cone on the surface // Nat Phys. � 2009. � Vol. 5. � P. 398.74. Hsieh D., Xia Y., Qian D., Wray L., Dil J. H., Meier F., Osterwalder J., Patthey L.,Checkelsky J. G., Ong N. P., Fedorov A. V., Lin H., Bansil A., Grauer D., Hor Y. S.,Cava R. J., Hasan M.
Z. A tunable topological insulator in the spin helical Dirac transportregime // Nature. � 2009. � Vol. 460. � P. 1101.75. Kuroda K., Arita M., Miyamoto K., Ye M., Jiang J., Kimura A., Krasovskii E. E.,Chulkov E. V., Iwasawa H., Okuda T., Shimada K., Ueda Y., Namatame H., Taniguchi M.Hexagonally deformed Fermi surface of the 3D topological insulator Bi2 Se3 // Phys. Rev.Lett.
� 2010. � Vol. 105. � P. 076802.10776. Fu L. Hexagonal warping effects in the surface states of the topological insulator Bi2 Te3 //Phys. Rev. Lett. � 2009. � Vol. 103. � P. 266801.77. Hor Y. S., Richardella A., Roushan P., Xia Y., Checkelsky J. G., Yazdani A., Hasan M. Z.,Ong N. P., Cava R. J. p-type Bi2 Se3 for topological insulator and low-temperature thermoelectric applications // Phys. Rev. B.
� 2009. � Vol. 79. � P. 195208.78. Chen Y. L., Analytis J. G., Chu J.-H., Liu Z. K., Mo S.-K., Qi X. L., Zhang H. J., Lu D. H.,Dai X., Fang Z., Zhang S. C., Fisher I. R., Hussain Z., Shen Z.-X. Experimental realizationof a three-dimensional topological insulator, Bi2 Te3 // Science. � 2009. � Vol. 325.
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