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Nature of unusual spontaneous and field-induced phase transitions in multiferroics RMn2O5
Complex magnetic, magnetoelectric and magnetoelastic studies of spontaneous and field-induced phase transitions in TmMn2O5 were carried out. In the vicinity of spontaneous phase transition temperatures (35 and 25 K) the magnetoelectric and magnetoelastic dependences demonstrated the jumps of polariz...
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| Published in: | Journal of magnetism and magnetic materials 2009-04, Vol.321 (7), p.858-860 |
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| Main Authors: | , , , , , , |
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| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c278t-5eb1aab4aaff6436dd9e713073ac9eab7149ef5884278f791d083b160ebf7ac73 |
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| cites | cdi_FETCH-LOGICAL-c278t-5eb1aab4aaff6436dd9e713073ac9eab7149ef5884278f791d083b160ebf7ac73 |
| container_end_page | 860 |
| container_issue | 7 |
| container_start_page | 858 |
| container_title | Journal of magnetism and magnetic materials |
| container_volume | 321 |
| creator | Pyatakov, A.P. Kadomtseva, A.M. Vorob’ev, G.P. Popov, Yu.F. Krotov, S.S. Zvezdin, A.K. Lukina, M.M. |
| description | Complex magnetic, magnetoelectric and magnetoelastic studies of spontaneous and field-induced phase transitions in TmMn2O5 were carried out. In the vicinity of spontaneous phase transition temperatures (35 and 25 K) the magnetoelectric and magnetoelastic dependences demonstrated the jumps of polarization and magnetostriction induced by the field 150 kOe. These anomalies can be attributed to the influence of magnetic field on the conditions of incommensurate-commensurate phase transition at 35 K and the reverse one at 25 K. In b-axis dependences the magnetic field-induced spin-reorientation phase transition was also observed below 20 K. Finally the magnetoelectric anomaly associated with metamagnetic transition is observed below the temperature of rare-earth subsystem ordering at relatively small critical fields of 5 kOe. This variety of spontaneous and induced phase transitions in RMn2O5 stems from the interplay of three magnetic subsystems: Mn3+, Mn4+, R3+. The comparison with YMn2O5 highlights the role of rare earth in low-temperature region (metamagnetic and spin-reorientation phase transitions), while the phase transition at higher temperatures between incommensurate and commensurate phases should be ascribed to the different temperature dependences of Mn3+ and Mn4+ ions. The strong correlation of magnetoelastic and magnetoelectric properties observed in the whole class of RMn2O5 highlights their multiferroic nature. |
| doi_str_mv | 10.1016/j.jmmm.2008.11.051 |
| format | article |
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In the vicinity of spontaneous phase transition temperatures (35 and 25 K) the magnetoelectric and magnetoelastic dependences demonstrated the jumps of polarization and magnetostriction induced by the field 150 kOe. These anomalies can be attributed to the influence of magnetic field on the conditions of incommensurate-commensurate phase transition at 35 K and the reverse one at 25 K. In b-axis dependences the magnetic field-induced spin-reorientation phase transition was also observed below 20 K. Finally the magnetoelectric anomaly associated with metamagnetic transition is observed below the temperature of rare-earth subsystem ordering at relatively small critical fields of 5 kOe. This variety of spontaneous and induced phase transitions in RMn2O5 stems from the interplay of three magnetic subsystems: Mn3+, Mn4+, R3+. The comparison with YMn2O5 highlights the role of rare earth in low-temperature region (metamagnetic and spin-reorientation phase transitions), while the phase transition at higher temperatures between incommensurate and commensurate phases should be ascribed to the different temperature dependences of Mn3+ and Mn4+ ions. 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In the vicinity of spontaneous phase transition temperatures (35 and 25 K) the magnetoelectric and magnetoelastic dependences demonstrated the jumps of polarization and magnetostriction induced by the field 150 kOe. These anomalies can be attributed to the influence of magnetic field on the conditions of incommensurate-commensurate phase transition at 35 K and the reverse one at 25 K. In b-axis dependences the magnetic field-induced spin-reorientation phase transition was also observed below 20 K. Finally the magnetoelectric anomaly associated with metamagnetic transition is observed below the temperature of rare-earth subsystem ordering at relatively small critical fields of 5 kOe. This variety of spontaneous and induced phase transitions in RMn2O5 stems from the interplay of three magnetic subsystems: Mn3+, Mn4+, R3+. The comparison with YMn2O5 highlights the role of rare earth in low-temperature region (metamagnetic and spin-reorientation phase transitions), while the phase transition at higher temperatures between incommensurate and commensurate phases should be ascribed to the different temperature dependences of Mn3+ and Mn4+ ions. 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In the vicinity of spontaneous phase transition temperatures (35 and 25 K) the magnetoelectric and magnetoelastic dependences demonstrated the jumps of polarization and magnetostriction induced by the field 150 kOe. These anomalies can be attributed to the influence of magnetic field on the conditions of incommensurate-commensurate phase transition at 35 K and the reverse one at 25 K. In b-axis dependences the magnetic field-induced spin-reorientation phase transition was also observed below 20 K. Finally the magnetoelectric anomaly associated with metamagnetic transition is observed below the temperature of rare-earth subsystem ordering at relatively small critical fields of 5 kOe. This variety of spontaneous and induced phase transitions in RMn2O5 stems from the interplay of three magnetic subsystems: Mn3+, Mn4+, R3+. The comparison with YMn2O5 highlights the role of rare earth in low-temperature region (metamagnetic and spin-reorientation phase transitions), while the phase transition at higher temperatures between incommensurate and commensurate phases should be ascribed to the different temperature dependences of Mn3+ and Mn4+ ions. The strong correlation of magnetoelastic and magnetoelectric properties observed in the whole class of RMn2O5 highlights their multiferroic nature.</abstract><doi>10.1016/j.jmmm.2008.11.051</doi><tpages>3</tpages></addata></record> |
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| title | Nature of unusual spontaneous and field-induced phase transitions in multiferroics RMn2O5 |
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