Magnetic anisotropy in the Fe(II)Fe(III) bimetallic oxalates

نویسندگان

  • Randy S. Fishman
  • Fernando A. Reboredo
چکیده

Bimetallic oxalates are layered molecule-based magnets with transition metals M II and M III coupled by oxalate molecules ox=C2O4 in an open honeycomb structure. Among the most interesting molecule-based magnets, Fe II Fe III bimetallic compounds with spins S=2 and S =5 /2 ferrimagnetically order at a transition temperature Tc that ranges from 30 to 48 K, depending on the organic cation between the layers. In small magnetic fields, several of these compounds exhibit “giant negative magnetization” below a compensation temperature of about 0.62Tc. By studying the behavior of the low-energy orbital doublet produced by a C3-symmetric crystal field, we construct a reduced Hamiltonian that contains both the exchange and spin-orbit interactions. This Hamiltonian is used to explain almost all of the important behaviors of the Fe II Fe III bimetallic oxalates, including the stability of magnetic order in weakly coupled layers and the magnetic compensation in compounds with high transition temperatures. In a magnetic field perpendicular to the bimetallic layers, a spin-flop transition is predicted at a field of about 3Jc / B 24 T, where Jc 0.45 meV is the nearest-neighbor antiferromagnetic exchange coupling. Holstein–Primakoff 1 /S and 1 /S expansions are used to evaluate the spin-wave spectrum and to estimate the spin-wave gap sw 1.65 meV in compounds that exhibit magnetic compensation. We predict that the negative magnetization can be optically reversed by near-infrared light. Breaking the C3 symmetry about each of the Fe II ions through either a cation-induced distortion or uniaxial strain in the plane of the bimetallic layer is predicted to increase the magnetic compensation temperature.

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تاریخ انتشار 2008