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Phase Transitions
A Multinational Journal
Volume 18, 1989 - Issue 1-2
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Original Articles

Magnetostriction and piezomagnetism of noncollinear antiferromagnet Mn3NiN

E. V. Gomonaj Institute for Physics of Metals, Ukrainian Academy of Sciences, 252680, Kiev-142, USSR
Pages 93-101 | Received 19 Oct 1988, Accepted 19 Dec 1988, Published online: 19 Aug 2006

Citations (21)

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Read on this site (2)

E.V. Gomonaj & V.A. L'Vov. (1992) A theory of spin reorientation and piezomagnetic effect in noncollinear Mn3AgN antiferromagnet. Phase Transitions 40:1-4, pages 225-237.
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E.V. Gomonaj & V.A. L'vov. (1992) Phenomenologic study of phase transitions in noncollinear antiferromagnets of metallic perovskite type. Phase Transitions 38:1, pages 15-31.
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Articles from other publishers (19)

Berthold H. Rimmler, Binoy K. Hazra, Banabir Pal, Katayoon Mohseni, James M. Taylor, Amilcar Bedoya‐Pinto, Hakan Deniz, Malleswararao Tangi, Ilya Kostanovskiy, Chen Luo, Robin R. Neumann, Arthur Ernst, Florin Radu, Ingrid Mertig, Holger L. Meyerheim & Stuart S. P. Parkin. (2023) Atomic Displacements Enabling the Observation of the Anomalous Hall Effect in a Non‐Collinear Antiferromagnet. Advanced Materials 35:23.
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E. Triana-Ramírez, W. Ibarra-Hernandez & A. C. Garcia-Castro. (2023) Anionic nickel and nitrogen effects in the chiral antiferromagnetic antiperovskite Mn 3 NiN . Physical Chemistry Chemical Physics.
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J. M. Duran-Pinilla, Aldo H. Romero & A. C. Garcia-Castro. (2022) Chiral magnetism, lattice dynamics, and anomalous Hall conductivity in antiferromagnetic antiperovskite . Physical Review Materials 6:12.
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Fabio Formisano, Roman M. Dubrovin, Roman V. Pisarev, Anatoly K. Zvezdin, Alexandra M. Kalashnikova & Alexey V. Kimel. (2022) Laser-induced THz piezomagnetism and lattice dynamics of antiferromagnets and . Annals of Physics 447, pages 169041.
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L. Flórez-Gómez, W. Ibarra-Hernández & A.C. Garcia-Castro. (2022) Lattice dynamics and spin–phonon coupling in the noncollinear antiferromagnetic antiperovskite Mn NiN . Journal of Magnetism and Magnetic Materials 562, pages 169813.
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Xiaodong Zhou, Jan-Philipp Hanke, Wanxiang Feng, Stefan Blügel, Yuriy Mokrousov & Yugui Yao. (2020) Giant anomalous Nernst effect in noncollinear antiferromagnetic Mn-based antiperovskite nitrides. Physical Review Materials 4:2.
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Xiaodong Zhou, Jan-Philipp Hanke, Wanxiang Feng, Fei Li, Guang-Yu Guo, Yugui Yao, Stefan Blügel & Yuriy Mokrousov. (2019) Spin-order dependent anomalous Hall effect and magneto-optical effect in the noncollinear antiferromagnets with , Zn, Ag, or Ni . Physical Review B 99:10.
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Taro Komori, Akihito Anzai, Toshiki Gushi, Kaoru Toko & Takashi Suemasu. (2019) Molecular beam epitaxy growth of Mn4−Ni N thin films on MgO(0 0 1) substrates and their magnetic properties. Journal of Crystal Growth 507, pages 163-167.
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David Boldrin, Andrei P. Mihai, Bin ZouJan Zemen, Ryan ThompsonEcaterina WareBogdan V. Neamtu, Luis Ghivelder, Bryan Esser, David W. McComb, Peter PetrovLesley F. Cohen. (2018) Giant Piezomagnetism in Mn 3 NiN . ACS Applied Materials & Interfaces 10:22, pages 18863-18868.
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J. Zemen, Z. Gercsi & K. G. Sandeman. (2017) Piezomagnetism as a counterpart of the magnetovolume effect in magnetically frustrated Mn-based antiperovskite nitrides. Physical Review B 96:2.
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Lei Ding, Cong Wang, Ying Sun, Claire V. Colin & Lihua Chu. (2015) Spin-glass-like behavior and negative thermal expansion in antiperovskite Mn3Ni1−xCuxN compounds. Journal of Applied Physics 117:21.
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Li-Hua Chu, Cong Wang, Ying Sun, Mei-Cheng Li, Zi-Pei Wan, Yu Wang, Shang-Yi Dou & Yue Chu. (2015) Doping Effect of Co at Ag Sites in Antiperovskite Mn 3 AgN Compounds . Chinese Physics Letters 32:4, pages 047501.
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Lihua Chu, Cong Wang, Jun Yan, Yuanyuan Na, Lei Ding, Ying Sun & Yongchun Wen. (2012) Magnetic transition, lattice variation and electronic transport properties of Ag-doped Mn3Ni1−xAgxN antiperovskite compounds. Scripta Materialia 67:2, pages 173-176.
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Ying Sun, Cong Wang, Lihua Chu, Yongchun Wen, Yuanyuan Na, Man Nie & Xiaolong Chen. (2012) Ni-doping effect on the magnetic transition and correlated lattice contraction in antiperovskite Mn3ZnN compounds. Solid State Communications 152:6, pages 446-449.
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Yuanyuan Na, Cong Wang, Lihua Chu, Lei Ding, Jun Yan, Yafei Xue, Wanfeng Xie & Xiaolong Chen. (2011) Preparation and properties of antiperovskite Mn3NiN thin film. Materials Letters 65:23-24, pages 3447-3449.
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Ding Lei, Wang Cong, Chu Li-Hua, Na Yuan-Yuan & Yan Jun. (2011) Comprehensive Survey for the Frontier Disciplines Progress in lattice, magnetic and electronic transport properties of antiperovskite Mn3AX. Acta Physica Sinica 60:9, pages 097507.
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Ying Sun, Cong Wang, Lihua Chu, Yongchun Wen, Man Nie & Fusheng Liu. (2010) Low temperature coefficient of resistivity induced by magnetic transition and lattice contraction in Mn3NiN compound. Scripta Materialia 62:9, pages 686-689.
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W.J. Feng, D. Li, W.J. Ren, Y.B. Li, W.F. Li, J. Li, Y.Q. Zhang & Z.D. Zhang. (2007) Structural, magnetic and transport properties of Mn3.1Sn0.9 and Mn3.1Sn0.9N compounds. Journal of Alloys and Compounds 437:1-2, pages 27-33.
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Andrés Camilo García Castro, Leonardo Florez-Gomez & Wilfredo Ibarra-Hernandez. (2022) Lattice Dynamics and Spin-Phonon Coupling in the Noncollinear Antiferromagnetic Antiperovskite Mn3nin. SSRN Electronic Journal.
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