Please use this identifier to cite or link to this item: https://apo.ansto.gov.au/dspace/handle/10238/4776
Title: Driving magnetostructural transitions in layered intermetallic compounds
Authors: Wang, JL
Caron, L
Campbell, SJ
Kennedy, SJ
Hofmann, M
Cheng, ZX
Md Din, MF
Studer, AJ
Brück, E
Dou, SX
Keywords: Transition elements
Magnetic fields
Antiferromagnetism
Ferromagnetism
Praseodymium
Entropy
Issue Date: 23-May-2013
Publisher: American Physical Society
Citation: Wang, J. L., Caron, L., Campbell, S. J., Kennedy, S. J., Hofmann, M., Cheng, Z. X., Md Din, M. F., Studer, A. J., Brück, E., Dou, S. X. (2013). Driving Magnetostructural Transitions in layered intermetallic compounds. Physical Review Letters, 110, Article Number 217211. doi:10.1103/PhysRevLett.110.217211
Abstract: We report the dramatic effect of applied pressure and magnetic field on the layered intermetallic compound Pr0.5Y0.5Mn2Ge2. In the absence of pressure or magnetic field this compound displays interplanar ferromagnetism at room temperature and undergoes an isostructural first order magnetic transition (FOMT) to an antiferromagnetic state below 158 K, followed by another FOMT at 50 K due to the reemergence of ferromagnetism as praseodymium orders (T-C(Pr)). The application of a magnetic field drives these two transitions towards each other, whereas the application of pressure drives them apart. Pressure also produces a giant magnetocaloric effect such that a threefold increase of the entropy change associated with the lower FOMT (at T-C(Pr)) is seen under a pressure of 7.5 kbar. First principles calculations, using density functional theory, show that this remarkable magnetic behavior derives from the strong magnetoelastic coupling of the manganese layers in this compound. © 2013, American Physical Society.
Gov't Doc #: 5106
URI: http://dx.doi.org/10.1103/PhysRevLett.110.217211
http://apo.ansto.gov.au/dspace/handle/10238/4776
ISSN: 0031-9007
Appears in Collections:Journal Articles

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