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具有ABO3钙钛矿或类似结构的强关联电子体系是凝聚态物理研究的重要前沿领域,而高压是制备新型钙钛矿特别是A位与/或B位有序钙钛矿材料的有效手段.在这些有序钙钛矿中,因A,B位可同时容纳过渡金属离子,因而可导致A-A,B-B,A-B等多种磁电相互作用的出现,进而诱导系列新颖有趣的物理现象.本文介绍高压下制备的几种化学式为AA3B4O12的新型A位有序钙钛矿以及化学式为AA3B2B2O12的A,B位同时有序的钙钛矿体系.在LaMn3Cr4O12中发现了具有立方钙钛矿结构的磁电多铁性,为多铁新材料探索与新机理研究提供范例;在CaCu3Fe2Os2O12中发现了远高于室温的亚铁磁半导体行为,并指出A位磁性离子的引入可大大增加磁相互作用强度从而大幅度提高磁有序温度;在LaMn3Ni2Mn2O12中观察到A位磁性离子调控的B位Ni2+/Mn4+子晶格正交自旋有序结构.以上研究结果为探索新型磁电多功能钙钛矿材料提供了重要参考.Strongly correlated electronic systems with ABO3 perovskite and/or perovskite-like structures have received much attention. High pressure is an effective method to prepare perovskites, in particular A-site and/or B-site ordered perovskites. In these ordered perovskites, both A and B sites can accommodate transition-metal ions, giving rising to multiple magnetic and electrical interactions between A-A, B-B, and A-B sites. The presence of these new interactions can induce a wide variety of interesting physical properties. In this review paper, we will introduce an A-site ordered perovskite with chemical formula AA3'B4O12 and two A- and B-site ordered perovskites with chemical formula AA3'B2B2'O12. All of these compounds can be synthesized only under high pressure. In the A-site ordered LaMn3Cr4O12 with cubic perovskite structure, magnetoelectric multiferroicity with new multiferroic mechanism is found to occur. This is the first observation of multiferroicity appearing in cubic perovskite, thereby opening the way to exploring new multiferroic materials and mechanisms. In the A- and B-site ordered perovskite CaCu3Fe2Os2O12, a high ferrimagnetic Curie temperature is observed to be around 580 K. Moreover, this compound exhibits semiconducting conductivity with an energy band gap of about 1 eV. The CaCu3Fe2Os2O12 thus provides a rare single-phase ferrimagnetic semiconductor with high spin ordering temperature well above room temperature as well as considerable energy band gap. Moreover, theoretical calculations point out that the introducing of A'-site Cu2+ magnetic ions can generate strong Cu-Fe and Cu-Os spin interactions. As a result, this A- and B-site ordered perovskite has a much higher Curie temperature than that of the B-site only ordered perovskite Ca2FeOsO6 (~320 K). In addition, we also for the first time prepare another A- and B-site ordered perovskite LaMn3Ni2Mn2O12. In the reported ordered perovskites with Mn3+ at the A' site, the A'-B intersite spin interaction is usually negligible. In our LaMn3Ni2Mn2O12, however, there exists the considerable A'-B interaction, which is responsible for the rare formation of B-site orthogonal spin structure with net ferromagnetic moment.
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Keywords:
- high-pressure synthesis /
- ordered perovskite /
- multiferroicity /
- spin ordering
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[1] Fu H X, Cohen R E 2000 Nature 403 281
[2] Eitel R E, Randall C A, Shrout T R, Rehrig P W, Hackenberger W, Park S E 2001 Jpn. J. Appl. Phys. 40 5999
[3] Cox D E, Noheda B, Shirane G, Uesu Y, Fujishiro K, Yamada Y 2001 Appl. Phys. Lett. 79 400
[4] Panda P K 2009 J. Mater. Sci. 44 5049
[5] Cohen R E 1992 Nature 358 136
[6] Bersuker I B 1966 Phys. Lett. 20 589
[7] Goto T, Kimura T, Lawes G, Ramirez A P, Tokura Y 2004 Phys. Rev. Lett. 92 257201
[8] Bednorz J G, Mller K A 1988 Rev. Mod. Phys. 60 585
[9] Xiao G, Cieplak M Z, Gavrin A, Streitz F H, Bakhshai A, Chien C L 1988 Phys. Rev. Lett. 60 1446
[10] Cava R J, Batlogg B, Krajewski J J, Farrow R, Rupp Jr L W, White A E, Short K, Peck W F, Kometani T 1988 Nature 332 814
[11] Maeno Y, Hashimoto H, Yoshida K, Nishizaki S, Fujita T, Bednorz J G, Lichtenberg F 1994 Nature 372 532
[12] Helmolt R V, Wecker J, Holzapfel B, Schultz L, Samwer K 1993 Phys. Rev. Lett. 71 2331
[13] Moritomo Y, Asamitsu A, Kuwahara H, Tokura Y 1996 Nature 380 141
[14] Tokura Y, Tomioka Y, Kuwahara H, Asamitsu A, Moritomo Y, Kasai M 1996 J. Appl. Phys. 79 5288
[15] Tokura Y 2006 Rep. Prog. Phys. 69 797
[16] Fiebig M 2005 J. Phys. D:Appl. Phys. 38 R123
[17] Eerenstein W, Mathur N D, Scott J F 2006 Nature 442 759
[18] Ramesh R, Spaldin N A 2007 Nat. Mater. 6 21
[19] Spaldin N A, Cheong S K, Ramesh R 2010 Phys. Today 63 38
[20] Mackenzie A P, Julian S R, Diver A J, McMullan G J, Ray M P, Lonzarich G G, Maeno Y, Nishizaki S, Fujita T 1996 Phys. Rev. Lett. 76 3786
[21] Hwang H Y, Iwasa Y, Kawasaki M, Keimer B, Nagaosa N, Tokura Y 2012 Nat. Mater. 11 103
[22] Calder S, Garlea V O, McMorrow D F, Lumsden M D, Stone M B, Lang J C, Kim J W, Schlueter J A, Shi Y G, Yamaura K, Sun Y S, Tsujimoto Y, Christianson A D 2012 Phys. Rev. Lett. 108 257209
[23] Carter J M, Shankar V V, Zeb M A, Kee H Y 2012 Phys. Rev. B 85 115105
[24] Yan B H, Jansen M, Felser C 2013 Nat. Phys. 9 709
[25] Chen Y G, Lu Y M, Kee H Y 2015 Nat. Commun. 6 6593
[26] Kobayashi K I, Kimura T, Sawada H, Terakura K, Tokura Y 1998 Nature 395 677
[27] Krockenberger Y, Mogare K, Reehuis M, Tovar M, Jansen M, Vaitheeswaran G, Kanchana V, Bultmark F, Delin A, Wilhelm F, Rogalev A, Winkler A, Alff L 2007 Phys. Rev. B 75 020404
[28] Shimakawa Y, Shiraki H, Saito T 2008 J. Phys. Soc. Jpn. 77 113702
[29] Ramirez A P, Subramanian M A, Gardel M, Blumberg G, Li D, Vogt T, Shapiro S M 2000 Solid State Commun. 115 217
[30] Long Y W, Hayashi N, Saito T, Azuma M, Muranaka S, Shimakawa Y 2009 Nature 458 60
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[34] Yamada I, Etani H, Tsuchida K, Marukawa S, Hayashi N, Kawakami T, Mizumaki M, Ohgushi K, KusanoY, Kim J, Tsuji N, Takahashi R, Nishiyama N, Inoue T, Irifune T and Takano M 2013 Inorg. Chem. 52 13751
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[36] Kimura T, Goto T, Shintani H, Ishizaka K, Arima T, Tokura Y 2003 Nature 426 55
[37] Katsura H, Nagaosa N, Balatsky V 2005 Phys. Rev. Lett. 95 057205
[38] Sergienko I A, Dagotto E 2006 Phys. Rev. B 73 094434
[39] Sergienko I A, Sen C, Dagotto E 2006 Phys. Rev. Lett. 97 227204
[40] Mostovoy M 2006 Phys. Rev. Lett. 96 067601
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[43] Tokura Y, Seki S, Naoto N 2014 Rep. Prog. Phys. 77 076501
[44] ArimaT 2007 J. Phys. Soc. Jpn. 76 073702
[45] Iyama A, Kimura T 2013 Phys. Rev. B 87 180408
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[47] Awschalom D D, Flatte M E, Samarth N 2002 Sci. Am. 286 66
[48] Dietl T 2010 Nat. Mater. 9 965
[49] Žutić I, Fabian J, Das Sarma S 2004 Rev. Mod. Phys. 76 323
[50] Zeng Z, Greenblatt M, Subramanian M A, Croft M 1999 Phys. Rev. Lett. 82 3164
[51] Alonso J A, Sánchez-Benítez J, de Andrés A, Martínez-Lope M J, Casais M T, Martínez J L 2003 Appl. Phys. Lett. 83 2623
[52] Takata K, Yamada I, Azuma M, Takano M, Shimakawa Y 2007 Phys. Rev. B 76 024429
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[62] Senn M S, Chen W T, Saito T, García-Martín S, Attfield J P, Shimakawa Y 2014 Chem. Mater. 26 4832
[63] Prodi A, Gilioli E, Cabassi R, Bolzoni F, Licci F, Huang Q Z, Lynn J W, Affronte M, Gauzzi A, Marezio M 2009 Phys. Rev. B 79 085105
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[66] Byeon S H, Lee S S, Parise J B, Woodward P M 2006 Chem. Mater. 18 3873
[67] Chen W T, Mizumaki M, Saito T, Shimakawa Y 2013 Dalton Trans. 42 10116
[68] Chen W T, Mizumaki M, Seki H, Senn M S, Saito T, Kan D, Attfield J P, Shimakawa Y 2014 Nat. Commun. 5 4909
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[70] Inaguma Y, Tanaka K, Tsuchiya T, Mori D, Katsumata T, Ohba T, Hiraki K, Takahashi T, Saitoh H 2011 J. Am. Chem. Soc. 133 16920
[71] Hu Z, Mazumdar C, Kaindl G, de Groot F M F, Warda S A, Reinen D 1998 Chem. Phys. Lett. 297 321
[72] Hu Z, Golden M S, Fink J, Kaindl G, Warda S A, Reinen D, Mahadevan P, Sarma D D 2000 Phys. Rev. B 61 3739
[73] Tohyama T, Saito T, Mizumaki M, Agui A, Shimakawa Y 2010 Inorg. Chem. 49 2492
[74] Kim D H, Lee E, Kim H W, Kolesnik S, Dabrowski B, Kang C J, Kim M, Min B I, Lee H K, Kim J Y, Kang J S 2015 Phys. Rev. B 91 075113
[75] Azuma M, Takata K, Saito T, Ishiwata S, Shimakawa Y, Takano M 2005 J. Am. Chem. Soc. 127 8889
[76] Rogado N S, Li J, Sleight A W, Subramanian M A 2005 Adv. Mater. 17 2225
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