Publication Type
Journal
Journal Name
Journal of Magnetism and Magnetic Materials
Publication Date
Volume
21
Abstract
Bimetallic oxalates are molecule-based magnets with transition-metal ions M(II) and M�(III)
arranged on an open honeycomb lattice. Performing a Holstein-Primakoff expansion, we obtain
the spin-wave spectrum of antiferromagnetically-coupled bimetallic oxalates as a function of the
crystal-field angular momentum L2 and L3 on the M(II) and M�(III) sites. Our results are applied
to the Fe(II)Mn(III), Ni(II)Mn(III) and V(II)V(III) bimetallic oxalates, where the spin-wave gap
varies from 0 meV for quenched angular momentum to as high as 15 meV. The presence or absence
of magnetic compensation appears to have no effect on the spin-wave gap.
