Structure and properties of various fast neutron irradiated magnets
Neutron irradiation allows the materials to transform to a state, in which the properties of material become different from an initial state. This paper presents the results of neutron irradiation of several magnetic materials including intermetallic compounds Nd2Fe14B and Er2Fe14B, multiferroics Bi...
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Published in | Physica. B, Condensed matter Vol. 551; pp. 132 - 136 |
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Main Authors | , , , , , , , , , , |
Format | Journal Article |
Language | English |
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15.12.2018
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Abstract | Neutron irradiation allows the materials to transform to a state, in which the properties of material become different from an initial state. This paper presents the results of neutron irradiation of several magnetic materials including intermetallic compounds Nd2Fe14B and Er2Fe14B, multiferroics BiFe0.95Mn0.05O3 and Bi0.85La0.15FeO3, oxides LiMn2O4 and Li0.9FePO4. The fast neutrons (Eeff > 0.1 MeV) have been used in a fluence range from 1 × 1018 n/cm2 to 2 × 1020 n/cm2 at 340 K Er2Fe14B alloy becomes amorphous under irradiation, that results in the reduction of Curie temperature to about 200 K. Irradiation destroys charge ordering in LiMn2O4 leading to the transformation from an incommensurate antiferromagnetic to a commensurate ferrimagnetic structure. Neutron irradiation of BiFe0.95Mn0.05O3 oxide is accompanied by decreasing the amount of impurity phases. On the contrary, in Bi0.85La0.15FeO3 fast neutrons result in the appearance of impurity phases. Neutron irradiation distinctly affects the lattice parameters of Li0.9FePO4 compound even with the relatively low fluence. |
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AbstractList | Neutron irradiation allows the materials to transform to a state, in which the properties of material become different from an initial state. This paper presents the results of neutron irradiation of several magnetic materials including intermetallic compounds Nd2Fe14B and Er2Fe14B, multiferroics BiFe0.95Mn0.05O3 and Bi0.85La0.15FeO3, oxides LiMn2O4 and Li0.9FePO4. The fast neutrons (Eeff > 0.1 MeV) have been used in a fluence range from 1 × 1018 n/cm2 to 2 × 1020 n/cm2 at 340 K Er2Fe14B alloy becomes amorphous under irradiation, that results in the reduction of Curie temperature to about 200 K. Irradiation destroys charge ordering in LiMn2O4 leading to the transformation from an incommensurate antiferromagnetic to a commensurate ferrimagnetic structure. Neutron irradiation of BiFe0.95Mn0.05O3 oxide is accompanied by decreasing the amount of impurity phases. On the contrary, in Bi0.85La0.15FeO3 fast neutrons result in the appearance of impurity phases. Neutron irradiation distinctly affects the lattice parameters of Li0.9FePO4 compound even with the relatively low fluence. Neutron irradiation allows the materials to transform to a state, in which the properties of material become different from an initial state. This paper presents the results of neutron irradiation of several magnetic materials including intermetallic compounds Nd2Fe14B and Er2Fe14B, multiferroics BiFe0.95Mn0.05O3 and Bi0.85La0.15FeO3, oxides LiMn2O4 and Li0.9FePO4. The fast neutrons (Eeff > 0.1 MeV) have been used in a fluence range from 1 × 1018 n/cm2 to 2 × 1020 n/cm2 at 340 K Er2Fe14B alloy becomes amorphous under irradiation, that results in the reduction of Curie temperature to about 200 K. Irradiation destroys charge ordering in LiMn2O4 leading to the transformation from an incommensurate antiferromagnetic to a commensurate ferrimagnetic structure. Neutron irradiation of BiFe0.95Mn0.05O3 oxide is accompanied by decreasing the amount of impurity phases. On the contrary, in Bi0.85La0.15FeO3 fast neutrons result in the appearance of impurity phases. Neutron irradiation distinctly affects the lattice parameters of Li0.9FePO4 compound even with the relatively low fluence. |
Author | Teplykh, A.E. Semkin, M.A. Kudrevatykh, N.V. Nosov, A.P. Kholkin, A.L. Urusova, N.V. Pirogov, A.N. Parkhomenko, V.D. Lee, S. Bogdanov, S.G. Skryabin, Yu.N. |
Author_xml | – sequence: 1 givenname: S. surname: Lee fullname: Lee, S. organization: Neutron Science Division, HANARO, Korea Atomic Energy Research Institute, 305353 Daejeon, Republic of Korea – sequence: 2 givenname: V.D. surname: Parkhomenko fullname: Parkhomenko, V.D. organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia – sequence: 3 givenname: Yu.N. surname: Skryabin fullname: Skryabin, Yu.N. organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia – sequence: 4 givenname: S.G. surname: Bogdanov fullname: Bogdanov, S.G. organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia – sequence: 5 givenname: A.P. surname: Nosov fullname: Nosov, A.P. organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia – sequence: 6 givenname: A.E. surname: Teplykh fullname: Teplykh, A.E. organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia – sequence: 7 givenname: N.V. surname: Kudrevatykh fullname: Kudrevatykh, N.V. organization: Institute of Natural Sciences and Mathematics, Ural Federal University, 620002 Ekaterinburg, Russia – sequence: 8 givenname: A.L. surname: Kholkin fullname: Kholkin, A.L. organization: Institute of Natural Sciences and Mathematics, Ural Federal University, 620002 Ekaterinburg, Russia – sequence: 9 givenname: M.A. surname: Semkin fullname: Semkin, M.A. organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia – sequence: 10 givenname: N.V. surname: Urusova fullname: Urusova, N.V. organization: Institute of Natural Sciences and Mathematics, Ural Federal University, 620002 Ekaterinburg, Russia – sequence: 11 givenname: A.N. surname: Pirogov fullname: Pirogov, A.N. email: pirogov@imp.uran.ru organization: M.N. Mikheev Institute of Metal Physics, Ural Division of Russian Academy of Science, 620108 Ekaterinburg, Russia |
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Cites_doi | 10.1088/1757-899X/49/1/012011 10.1016/0022-3115(94)00386-6 10.1088/0034-4885/61/9/001 10.1134/S1063783407020205 10.1016/j.jallcom.2013.07.103 10.1063/1.4754577 10.1016/j.cplett.2015.07.007 10.1134/S1063783410120164 10.1007/s12034-013-0550-4 10.1103/PhysRevLett.106.087205 10.1080/21663831.2016.1197858 10.1016/0921-4526(93)90108-I 10.1088/0953-8984/15/32/320 10.1038/natrevmats.2016.46 10.1107/S0021889899011577 10.1134/S1063783413080076 10.4236/jamp.2014.29093 10.1016/j.pnsc.2012.11.014 |
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SubjectTerms | Antiferromagnetism Crystal lattices Curie temperature Diffraction Fast neutrons Ferrimagnetism Fluence Impurities Intermetallic compounds Lattice parameters Lithium manganese oxides Magnetic materials Magnetic properties Magnetic transformation Magnetism Magnets Mechanical properties Neutron irradiation Neutrons Phase transitions |
Title | Structure and properties of various fast neutron irradiated magnets |
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