Laser-Induced Intersite Spin Transfer | Zendy

J. K. Dewhurst | Zendy; Peter Elliott | Zendy; S. Shallcross | Zendy; E. K. U. Gross | Zendy; S. Sharma | Zendy

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Laser-Induced Intersite Spin Transfer

Author(s) -

J. K. Dewhurst,

Peter Elliott,

S. Shallcross,

E. K. U. Gross,

S. Sharma

Publication year - 2018

Publication title -

nano letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.853

H-Index - 488

eISSN - 1530-6992

pISSN - 1530-6984

DOI - 10.1021/acs.nanolett.7b05118

Subject(s) - condensed matter physics , antiferromagnetism , ferromagnetism , spin (aerodynamics) , magnetization , laser , spin engineering , magnet , lattice (music) , ultrashort pulse , magnetism , materials science , spin polarization , magnetic field , physics , optics , electron , quantum mechanics , acoustics , thermodynamics

Laser pulses induce spin-selective charge flow that we show to generate dramatic changes in the magnetic structure of materials, including a switching of magnetic order from antiferromagnetic (AFM) to transient ferromagnetic (FM) in multisub-lattice systems. The microscopic mechanism underpinning this ultrafast switching of magnetic order is dominated by spin-selective charge transfer from one magnetic sublattice to another. Because this spin modulation is purely optical in nature (i.e., not mediated indirectly via the spin-orbit interaction) this is one of the fastest means of manipulating spin by light. We further demonstrate this mechanism to be universally applicable to AFM, FM, and ferri-magnets in both multilayer and bulk geometry and provide three rules that encapsulate early-time magnetization dynamics of multisub-lattice systems.

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