Measurement of Magnetic Moment at the Atomic Scale in a High TC Molecular Based Magnet
Publication date
1995-11-30
Authors
Arrio, M.-A.
Sainctavit, Ph.
Cartier dit Moulin, Ch.
Brouder, Ch.
Groot, F.M.F. de
Mallah, T.
Verdaguer, M.
Editors
Advisors
Supervisors
DOI
Document Type
Article
Metadata
Show full item recordCollections
License
Abstract
The molecular-based magnet Cs^(I) [Ni^(II) Cr^(III) (CN)6]-2H2O is a ferromagnetic with a Curie temperature TC ) 90
K. Its structure consists of face-centered cubic lattice of Ni^(II) ions connected by Cr(CN)6 entities. We have
recorded X-ray magnetic circular dichroism (XMCD) at nickel L2,3 edges. It clearly evidences that nickel(II)
is in a high-spin configuration and ferromagnetically coupled to the surrounding Cr^(III) . Through ligand field
multiplet calculations, we have determined the total magnetic moment carried by Ni^(II) . Special attention has
been paid to the magnetic anisotropy that complicates the calculation of the cross section for a powder. By
using sum rules derived for XMCD, it has been possible to extract the orbital and spin contributions to the
total magnetic moment. A somewhat too small magnetic moment is found on nickel. A complete calculation
taking into account the multiplet coupling effect and the covalent hybridization allowed to determine the
precise ground state of nickel and showed that hybridization cannot be responsible for the experimental low
nickel magnetic moment. The origin of this effect is discussed.