Синтез, строение и свойства сверхпроводников на основе арсенидов и селенидов железа с щелочными металлами (1105742), страница 30
Текст из файла (страница 30)
Phys. Rev. B, 85 (9), 2012, 094512.45. Pöttgen, R., Johrendt, D. Materials with ZrCuSiAs-type Structure. Z. Naturforsch. B, 63(10), 2008, 1135.46. Hosono, H., Matsuishi, S. Superconductivity induced by hydrogen anion substitution in1111-type iron arsenides. Curr. Opin. Solid State Mater. Sci., 17 (2), 2013, 49.47. Zhu, X.Y., Han, F., Mu, G., Zeng, B., Cheng, P., Shen, B., Wen, H.H. Sr3Sc2Fe2As2O5 asa possible parent compound for FeAs-based superconductors.
Phys. Rev. B, 79(2), 2009, 024516.48. Chen, G.F., Xia, T.L., Yang, H.X., Li, J.Q., Zheng, P., Luo, J.L., Wang, N.L. Possiblehigh-temperature superconductivity in a Ti-doped A-Sc-Fe-As-O (A = Ca, Sr)system. Supercond. Sci. Technol., 22 (7), 2009, 072001.49. Ogino, H., Shimizu, Y., Ushiyama, K., Kawaguchi, N., Kishio, K., Shimoyama, J.Superconductivity above 40 K observed in a new iron arsenide oxide(Fe2As2)(Ca4(Mg, Ti)3Oy).
Appl. Phys. Express, 3 (6), 2010, 063103.50. Yu, J. Firts-principles electronic structure calculations for Ba2CuO2Fe2As2. MS thesis.Hangzhou: Zhejiang University Press. 2013.51. Eguchi, N., Ishikawa, F., Kodama, M., Wakabayashi, T., Nakayama, A., Ohmura, A.,Yamada, Y.
Synthesis of New Layered Oxypnictides Sr2CrO2(FeAs)2. J. Phys.Soc. Jpn., 82 (4), 2013, 045002.52. Ogino, H., Matsumara, Y., Katsura, Y., Ushiyama, K., Horii, S., Kishio, K., Shimoyama,J. Superconductivity at 17 K in (Fe2P2)(Sr4Sc2O6): a new superconducting layeredpnictide oxide with a thick perovskite oxide layer.
Supercond. Sci. Technol., 22(7), 2009, 075008.14053. Zhu, X.Y., Han, F., Mu, G., Cheng, P., Shen, B., Zeng, B., Wen, H.H. Transition ofstoichiometric Sr2VO3FeAs to a superconducting state at 37.2 K. Phys. Rev. B, 79(22), 2009, 220512.54. Cao, G.H., Ma, Z.F., Wang, C., Sun, Y.L., Bao, J.K., Jiang, S.A., Luo, Y.K., Feng, C.M.,Zhou, Y., Xie, Z., Hu, F.C., Wei, S.Q., Nowik, I., Felner, I., Zhang, L., Xu, Z.A.,Zhang, F.C.
Self-doping effect and successive magnetic transitions insuperconducting Sr2VFeAsO3. Phys. Rev. B, 82 (10), 2010, 104518.55. Ogino, H., Katsura, Y., Horii, K., Shimoyama, J. New iron-based arsenide oxides(Fe2As2)(Sr4M2O6) (M = Sc, Cr). Supercond. Sci. Technol., 22 (8), 2009, 085001.56. Eisaki, H., Iyo, A., Kito, H., Miyazawa, K., Shirage, P.M., Matsuhata, H., Kihou, K.,Lee, C.H., Takeshita, N., Kumai, R., Tomioka, Y., Ito, T. Synthesis and physicalproperties of LnFeAsO1-y.
J. Phys. Soc. Jpn., 77, 2008, 36.57. Mizuguchi, Y., Hara, Y., Deguchi, K., Tsuda, S., Yamaguchi, T., Takeda, K., Kotegawa,H., Tou, H., Takano, Y. Anion height dependence of Tc for the Fe-basedsuperconductor. Supercond. Sci. Technol., 23 (5), 2010, 054013.58. Kuchinskii, E.Z., Nekrasov, I.A., Sadovskii, M.V. Anion height dependence of Tc and thedensity of states in iron-based superconductors. JETP Lett., 91 (10), 2010, 518.59. Yin, Z.P., Haule, K., Kotliar, G.
Kinetic frustration and the nature of the magnetic andparamagnetic states in iron pnictides and iron chalcogenides. Nat. Mater., 10 (12),2011, 932.60. Haule, K., Shim, J.H., Kotliar, G. Correlated electronic structure of LaO1-xFxFeAs. Phys.Rev. Lett., 100 (22), 2008, 226402.61.
Nekrasov, I., Pchelkina, Z., Sadovskii, M. Electronic structure of new LiFeAs high-Tcsuperconductor. JETP Lett., 88 (8), 2008, 543.62. Singh, D.J. Electronic structure and doping in BaFe2As2 and LiFeAs: density functionalcalculations. Phys. Rev. B, 78 (9), 2008, 094511.63. Cao, C., Dai, J.H. Electronic structure of KFe2Se2 from first-principles calculations. Chin.Phys.
Lett., 28 (5), 2011, 057402.64. Moskalenko, V.A. The theory of superconductors with overlapping energy bands. Sov.Phys. Usp., 17 (3), 1974, 450.65. Suhl, H., Matthias, B.T., Walker, L.R. Bardeen-Cooper-Schrieffer theory ofsuperconductivity in the case of overlapping bands. Phys. Rev. Lett., 3 (12), 1959,552.66. Mazin, I.I., Singh, D.J., Johannes, M.D., Du, M.H. Unconventional superconductivitywith a sign reversal in the order parameter of LaFeAsO1-xFx. Phys.
Rev. Lett., 101(5), 2008, 057003.67. Liu, R.H., Wu, T., Wu, G., Chen, H., Wang, X.F., Xie, Y.L., Ying, J.J., Yan, Y.J., Li,Q.J., Shi, B.C., Chu, W.S., Wu, Z.Y., Chen, X.H. A large iron isotope effect inSmFeAsO1-xFx and Ba1-xKxFe2As2. Nature, 459 (7243), 2009, 64.14168. Shein, I.R., Ivanovskii, A.L. Band structure of a new 16-18 K superconductor LiFeAscompared to Li0.5FeAs and LiCoAs.
JETP Lett., 88 (5), 2008, 329.69. Boeri, L., Dolgov, O.V., Golubov, A.A. Is LaFeAsO1-xFx an electron-phononsuperconductor? Phys. Rev. Lett., 101 (2), 2008, 026403.70. Bohnen, K.P., Heid, R., Krauss, M. Phonon dispersion and electron-phonon interactionfor YBa2Cu3O7 from first-principles calculations. Europhys. Lett., 64 (1), 2003,104.71. Cox, D.L., Maple, M.B. Electronic pairing in exotic superconductors.
Phys. Today, 48(2), 1995, 32.72. Dong, J., Zhang, H.J., Xu, G., Li, Z., Li, G., Hu, W.Z., Wu, D., Chen, G.F., Dai, X., Luo,J.L., Fang, Z., Wang, N.L. Competing orders and spin-density-wave instability inLa(O1-xFx)FeAs. Europhys. Lett., 83 (2), 2008, 27006.73. Yildirim, T.
Origin of the 150-K anomaly in LaFeAsO: competing antiferromagneticinteractions, frustration, and a structural phase transition. Phys. Rev. Lett., 101(5), 2008, 057010.74. Ma, F., Lu, Z.Y., Xiang, T. Arsenic-bridged antiferromagnetic superexchangeinteractions in LaFeAsO. Phys.
Rev. B, 78 (22), 2008, 224517.75. Mazin, I.I., Johannes, M.D., Boeri, L., Koepernik, K., Singh, D.J. Problems withreconciling density functional theory calculations with experiment inferropnictides. Phys. Rev. B, 78 (8), 2008, 085104.76. Boeri, L., Calandra, M., Mazin, I.I., Dolgov, O.V., Mauri, F. Effects of magnetism anddoping on the electron-phonon coupling in BaFe2As2. Phys.
Rev. B, 82 (2), 2010,020506.77. Xia, Y., Qian, D., Wray, L., Hsieh, D., Chen, G.F., Luo, J.L., Wang, N.L., Hasan, M.Z.Fermi surface topology and low-lying quasiparticle dynamics of parentFe1+xTe/Se superconductor. Phys. Rev. Lett., 103 (3), 2009, 037002.78. Kondo, T., Santander-Syro, A.F., Copie, O., Liu, C., Tillman, M.E., Mun, E.D.,Schmalian, J., Bud'ko, S.L., Tanatar, M.A., Canfield, P.C., Kaminski, A.Momentum dependence of the superconducting gap in NdFeAsO0.9F0.1 singlecrystals measured by angle resolved photoemission spectroscopy. Phys.
Rev.Lett., 101 (14), 2008, 147003.79. Lu, D.H., Yi, M., Mo, S.K., Erickson, A.S., Analytis, J., Chu, J.H., Singh, D.J., Hussain,Z., Geballe, T.H., Fisher, I.R., Shen, Z.X. Electronic structure of the iron-basedsuperconductor LaOFeP. Nature, 455 (7209), 2008, 81.80. Evtushinsky, D.V., Inosov, D.S., Zabolotnyy, V.B., Koitzsch, A., Knupfer, M., Büchner,B., Viazovska, M.S., Sun, G.L., Hinkov, V., Boris, A.V., Lin, C.T., Keimer, B.,Varykhalov, A., Kordyuk, A.A., Borisenko, S.V. Momentum dependence of thesuperconducting gap in Ba1-xKxFe2As2. Phys. Rev.
B, 79 (5), 2009, 054517.81. Zabolotnyy, V.B., Inosov, D.S., Evtushinsky, D.V., Koitzsch, A., Kordyuk, A.A., Sun,G.L., Park, J.T., Haug, D., Hinkov, V., Boris, A.V., Lin, C.T., Knupfer, M.,142Yaresko, A.N., Büchner, B., Varykhalov, A., Follath, R., Borisenko, S.V. (π, π)electronic order in iron arsenide superconductors. Nature, 457 (7229), 2009, 569.82. Sato, T., Nakayama, K., Sekiba, Y., Richard, P., Xu, Y.M., Souma, S., Takahashi, T.,Chen, G.F., Luo, J.L., Wang, N.L., Ding, H. Band structure and Fermi surface ofan extremely overdoped iron-based superconductor KFe2As2. Phys. Rev. Lett.,103 (4), 2009, 047002.83. Borisenko, S.V., Zabolotnyy, V.B., Evtushinsky, D.V., Kim, T.K., Morozov, I.V.,Yaresko, A.N., Kordyuk, A.A., Behr, G., Vasiliev, A., Follath, R., Büchner, B.Superconductivity without nesting in LiFeAs.
Phys. Rev. Lett., 105 (6), 2010,067002.84. Borisenko, S.V., Zabolotnyy, V.B., Kordyuk, A.A., Evtushinsky, D.V., Kim, T.K.,Morozov, I.V., Follath, R., Büchner, B. One-sign order parameter in iron basedsuperconductor. Symmetry, 4 (1), 2012, 251.85. Liu, C., Kondo, T., Fernandes, R.M., Palczewski, A.D., Mun, E.D., Ni, N., Thaler, A.N.,Bostwick, A., Rotenberg, E., Schmalian, J., Bud'ko, S.L., Canfield, P.C.,Kaminski, A.
Evidence for a Lifshitz transition in electron-doped iron arsenicsuperconductors at the onset of superconductivity. Nat. Phys., 6 (6), 2010, 419.86. Chen, F., Xu, M., Ge, Q.Q., Zhang, Y., Ye, Z.R., Yang, L.X., Jiang, J., Xie, B.P., Che,R.C., Zhang, M., Wang, A.F., Chen, X.H., Shen, D.W., Hu, J.P., Feng, D.L.Electronic identification of the parental phases and mesoscopic phase separationof KxFe2-ySe2 superconductors. Phys.
Rev. X, 1 (2), 2011, 021020.87. Xu, M., Ge, Q.Q., Peng, R., Ye, Z.R., Jiang, J., Chen, F., Shen, X.P., Xie, B.P., Zhang,Y., Wang, A.F., Wang, X.F., Chen, X.H., Feng, D.L. Evidence for an s-wavesuperconducting gap in K xFe2-ySe2 from angle-resolved photoemission. Phys.Rev. B, 85 (22), 2012, 220504(R).88. Zhang, Y., Yang, L.X., Xu, M., Ye, Z.R., Chen, F., He, C., Xu, H.C., Jiang, J., Xie, B.P.,Ying, J.J., Wang, X.F., Chen, X.H., Hu, J.P., Matsunami, M., Kimura, S., Feng,D.L.
Nodeless superconducting gap in AxFe2Se2 (A = K, Cs) revealed by angleresolved photoemission spectroscopy. Nat. Mater., 10 (4), 2011, 273.89. Nekrasov, I.A., Pavlov, N.S., Sadovskii, M.V. Doping dependence of correlation effectsin K1-xFe2-ySe2 superconductors: LDA' plus DMFT investigation. JETP, 117 (5),2013, 926.90. Sales, B.C., McGuire, M.A., Sefat, A.S., Mandrus, D. A semimetal model of the normalstate magnetic susceptibility and transport properties of Ba(Fe1-xCox)2As2. PhysicaC: Superconductivity, 470 (4), 2010, 304.91.
Zhang, G.M., Su, Y.H., Lu, Z.Y., Weng, Z.Y., Lee, D.H., Xiang, T. Universal lineartemperature dependence of static magnetic susceptibility in iron pnictides.Europhys. Lett., 86 (3), 2009, 37006.92. Yan, J.Q., Kreyssig, A., Nandi, S., Ni, N., Bud'ko, S.L., Kracher, A., McQueeney, R.J.,McCallum, R.W., Lograsso, T.A., Goldman, A.I., Canfield, P.C.
Structuraltransition and anisotropic properties of single-crystalline SrFe2As2. Phys. Rev. B,78 (2), 2008, 024516.14393. Wu, G., Chen, H., Wu, T., Xie, Y.L., Yan, Y.J., Liu, R.H., Wang, X.F., Ying, J.J., Chen,X.H. Different resistivity response to spin-density wave and superconductivity at20 K in Ca1-xNaxFe2As2. J. Phys. : Condens.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
