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A Multiferroic Molecular Magnetic Qubit

Materials Science 2019-11-06 v2 Atomic and Molecular Clusters Chemical Physics

Abstract

The chiral Fe3O(NC5H5)3(O2CC6H5)6Fe_3O(NC_5H_5)_3(O_2CC_6H_5)_6 molecular cation, with C3_3 symmetry, is composed of three six-fold coordinated spin-carrying Fe3+^{3+} cations that form a perfect equilateral triangle. Experimental reports demonstrating the spin-electric effect in this system also identify the presence of a magnetic uni-axis and suggest that this molecule may be a good candidate for an externally controllable molecular qubit. Here we demonstrate, using standard density-functional methods, that the spin-electric behavior of this molecule could be even more interesting as there are energetically competitive reference states associated with both high and low local spins (S=5/2 vs. S=1/2) on the Fe3+^{3+} ions. Each of these structures allow for spin-electric ground states. We find that qualitative differences in the broadening of the Fe(2s) and O(1s) core levels and the single-spin anisotropy Hamiltonian may be used to confirm whether the high-spin manifold is lower in energy than the low-spin manifold.

Keywords

Cite

@article{arxiv.1909.08803,
  title  = {A Multiferroic Molecular Magnetic Qubit},
  author = {Alexander I Johnson and M. Fhokrul Islam and Carlo M. Canali and Mark R Pederson},
  journal= {arXiv preprint arXiv:1909.08803},
  year   = {2019}
}
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