Magnetic excitations in molecular magnets with complex bridges: The tetrahedral molecule Ni$_4$Mo$_{12}$
M. Georgiev,H. Chamati +1 more
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TLDR
In this article, a modified spin Hamiltonian was introduced to account for all energetically favorable spatial distributions of the valence electrons along the exchange bridges connecting the constituent magnetic ions.Abstract:
We investigate the spectroscopic magnetic excitations in molecular magnets with complex intermediate structure among the magnetic ions. Our approach consists in introducing a modified spin Hamiltonian that allows for discrete coupling parameters accounting for all energetically favorable spatial distributions of the valence electrons along the exchange bridges connecting the constituent magnetic ions. We discuss the physical relevance of the constructed Hamiltonian and derive its eigenvalues. The model is applied to explore the magnetic excitations of the tetrameric molecular magnet Ni$_4$Mo$_{12}$. Our results are in a very good agreement with the available experimental data. We show that the experimental magnetic excitations in the named tetramer can be traced back to the specific geometry and complex chemical structure of the exchange bridges leading to the splitting and broadness of the peaks centered about 0.5 meV and 1.7 meV.read more
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Magnetization steps in the molecular magnet Ni 4 Mo 12 revealed by complex exchange bridges
M. Georgiev,Hassan Chamati +1 more
TL;DR: In this article, the behavior of the magnetization and the magnetic susceptibility of molecular magnets with complex bridging structure was studied based on a post-Hartree-Fock method accounting for the intricate network of interatomic bonds and an effective spinlike Hamiltonian that captures the essential magnetic features of magnetic molecules.
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References
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Related Papers (5)
Magnetic excitations in molecular magnets with complex bridges: the tetrahedral molecule Ni 4 Mo 12
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