Field-induced phase transitions and magnetoferroelectricity in the perfect triangular lattice antiferromagnet RbFe(MoO sub(4)) sub(2) in a vertical magnetic field
We performed electric polarization P, dielectric constant [Greek Lunate Epsilon] and magnetization M measurements on the perfect triangular-lattice antiferromagnet RbFe(MoO sub(4)) sub(2) in high magnetic fields B applied along the c-axis. Whereas M(B) at T=1.5 K monotonically increases with B up to...
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| Veröffentlicht in: | Journal of magnetism and magnetic materials 2016-02, Vol.400, p.70-72 |
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| container_title | Journal of magnetism and magnetic materials |
| container_volume | 400 |
| creator | Mitamuraa, Hiroyuki Watanukib, Ryuta Onozakib, Norimichi Amoub, Yuta Konoa, Yohei Kittakaa, Shunichiro Shimuraa, Yasuyuki Yamamotob, Isao Suzukib, Kazuya Sakakibaraa, Toshiro |
| description | We performed electric polarization P, dielectric constant [Greek Lunate Epsilon] and magnetization M measurements on the perfect triangular-lattice antiferromagnet RbFe(MoO sub(4)) sub(2) in high magnetic fields B applied along the c-axis. Whereas M(B) at T=1.5 K monotonically increases with B up to the saturation at View the MathML source Bs=21T, P(B) disappears about 14 T, far below the saturation point. In a field range View the MathML source 13 less than or equal to B less than or equal to 14T, the temperature variation of [Greek Lunate Epsilon] shows a double peak structure below 2.8 K, indicating two successive transitions. These results strongly suggest the presence of a new high-field phase; the magnetic structure changes from a low-field conical state having chirality to a high-field coplanar non-collinear structure without chirality. The obtained phase diagram is in agreement with a theoretical prediction on XY-like Heisenberg spin triangular lattice antiferromagnets. |
| doi_str_mv | 10.1016/j.jmmm.2015.08.013 |
| format | Article |
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Whereas M(B) at T=1.5 K monotonically increases with B up to the saturation at View the MathML source Bs=21T, P(B) disappears about 14 T, far below the saturation point. In a field range View the MathML source 13 less than or equal to B less than or equal to 14T, the temperature variation of [Greek Lunate Epsilon] shows a double peak structure below 2.8 K, indicating two successive transitions. These results strongly suggest the presence of a new high-field phase; the magnetic structure changes from a low-field conical state having chirality to a high-field coplanar non-collinear structure without chirality. 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| subjects | Antiferromagnetism Chirality Lattices Magnetic fields Phase diagrams Phase transformations Saturation |
| title | Field-induced phase transitions and magnetoferroelectricity in the perfect triangular lattice antiferromagnet RbFe(MoO sub(4)) sub(2) in a vertical magnetic field |
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