Peng Li Supervisor of Doctorate CandidatesSupervisor of Master's Candidates

E-Mail:

Administrative Position:Professor

Contact Information:+86(0551)63607785

Degree:Dr

Main Positions:Associate Editor, IEEE transactions on Quantum Engineering

Discipline: Electronic Science and Technology

Paper Publications

Current position: Home > Scientific Research > Paper Publications

R. Li, P. Li, D. C. Ralph, and T. Nan, et al., Anisotropic magnon spin transport in ultrathin spinel ferrite thin films evidence for anisotropy in exchange stiffness

Release time:2022-07-12
Hits:
DOI number:
10.1021/acs.nanolett.1c04332
Journal:
Nano Lett.
Abstract:
Magnon-mediated spin flow in magnetically ordered insulators enables long-distance spin-based information transport with low dissipation. In the materials studied to date, no anisotropy has been observed in the magnon propagation length as a function of propagation direction. Here, we report measurements of magnon spin transport in a spinel ferrite, magnesium aluminum ferrite MgAl0.5Fe1.5O4 (MAFO), which has a substantial in-plane 4-fold magnetic anisotropy. We observe spin diffusion lengths > 0.8 μm at room temperature in 6 nm films, with spin diffusion lengths 30% longer along the easy axes compared to the hard axes. The sign of this difference is opposite to the effects just of anisotropy in the magnetic energy for a uniform magnetic state. We suggest instead that accounting for anisotropy in exchange stiffness is necessary to explain these results. These findings provide an approach for controlling magnon transport via strain, which opens new opportunities for designing magnonic devices.
Document Code:
1167
Discipline:
Engineering
Volume:
22
Page Number:
1167–1173
Translation or Not:
no
Date of Publication:
2021-01-25