Probing the Exchange Interaction Between Two Magnetic Molecules in 3D Space
ORAL
Abstract
The exchange interaction is responsible for magnetic ordering in materials and is the principal means by which two nearby spins interact. Previous scanning tunneling microscopy studies of magnetic atoms on surfaces have explored the effects of exchange on their spin states, but in these experiments, the localized spins can only be positioned at fixed lattice adsorption sites in the two-dimensional surface plane. Here we use inelastic electron tunneling spectroscopy to probe the exchange interaction between the spins of two magnetic molecules by attaching one to a STM tip and positioning it in 3D space above another molecule adsorbed on a surface. We find that the exchange coupling requires re-diagonalization of the two-molecule spin Hamiltonian and depends sensitively on their relative positions. Our results demonstrate the ability to characterize and map the exchange coupling strength between spin densities in three dimensions and provide new opportunities to probe the coupling between quantum states with sub-Angstrom resolution.
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Presenters
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Gregory Czap
- University of California, Irvine
- Physics, Univ of California - Irvine
- Department of Physics and Astronomy, Univ of California - Irvine