2003
DOI: 10.1103/physrevb.68.144418
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Dipole interaction and magnetic anisotropy in gadolinium compounds

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Cited by 66 publications
(67 citation statements)
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“…10,11 Again, the MA in Gd compounds is usually of the order of less than a few tens of eV/ atom. 9 In this connection, the results reported recently for a polycrystalline GdSi sample are surprising. This compound crystallises in the FeB type of structure with space group Pnma.…”
mentioning
confidence: 68%
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“…10,11 Again, the MA in Gd compounds is usually of the order of less than a few tens of eV/ atom. 9 In this connection, the results reported recently for a polycrystalline GdSi sample are surprising. This compound crystallises in the FeB type of structure with space group Pnma.…”
mentioning
confidence: 68%
“…8,9 In few cases, the crystal field and exchange effects coming from higher multiplets have been discussed as possible sources. 10,11 Again, the MA in Gd compounds is usually of the order of less than a few tens of eV/ atom.…”
mentioning
confidence: 99%
“…The third term B near int α i is the contribution to the local magnetic induction in the α th direction due to the discrete point magnetic dipoles around a central spin within the Lorentz cavity centered on the central spin given by 47,48 B near int α i = −2…”
Section: Influence Of Magnetic Dipole Interactionsmentioning
confidence: 99%
“…Gadolinium antiferromagnets (see [79,80], and Table I in [81]) offer two important advantages for an experimental study of the Zeeman spin-orbit coupling. Firstly, their often elevated Néel temperature T N (such as 134 K for GdAg, or 150 K for GdCu) facilitates experimental access to temperatures well below T N , where thermal fluctuations of antiferromagnetic order are frozen out.…”
Section: Other Materials Of Interestmentioning
confidence: 99%