Effect of defects on the line shape of electron paramagnetic resonance signals from the single-molecule magnet Mn12: A theoretical study

Abstract: We herein estimate the effect of lattice defects on the line shape of electron paramagnetic resonance (EPR) signals from a single crystal of the S = 10 single-molecule magnet Mn 12 with the external magnetic field along the crystal c axis. A second-order perturbation treatment of an effective single-spin Hamiltonian indicates that a small, random, static misorientation of the magnetic symmetry axes in a crystalline lattice can lead to asymmetric EPR peaks. Full spectra are simulated by calculating probability-… Show more

“…It has been suggested that the distribution in internal transverse fields could arise from a distribution in the magnetic easy axes of individual molecules. 16,17 But the origin of the distribution in the magnetic easy axes remains unknown. In this regard, we consider, within DFT, the possibility that extra electrons when accepted by Mn 12 molecules, will exhibit a disorder-or defect-induced behavior that is observed in the experimental samples.…”

Effect of extra electrons on the exchange and magnetic anisotropy in the anionic single-molecule magnetMn12

“…It has been suggested that the distribution in internal transverse fields could arise from a distribution in the magnetic easy axes of individual molecules. 16,17 But the origin of the distribution in the magnetic easy axes remains unknown. In this regard, we consider, within DFT, the possibility that extra electrons when accepted by Mn 12 molecules, will exhibit a disorder-or defect-induced behavior that is observed in the experimental samples.…”

Effect of extra electrons on the exchange and magnetic anisotropy in the anionic single-molecule magnetMn12

Spectroscopy of Single-Molecule Magnets