Seng Ghee Tan, Mansoor B. A. Jalil
Published 2015-11-13Version 1
The spin orbit coupling spin torque consists of the field-like [REF: S.G. Tan et al., arXiv:0705.3502, (2007).] and the damping-like terms [REF: H. Kurebayashi et al., Nature Nanotechnology 9, 211 (2014).] that have been widely studied for applications in magnetic memory. We focus, in this article, not on the spin orbit effect producing the above spin torques, but on its magnifying the damping constant of all field like spin torques. As first order precession leads to second order damping, the Rashba constant is naturally co-opted, producing a magnified field-like damping effect. The Landau-Liftshitz-Gilbert equations are written separately for the local magnetization and the itinerant spin, allowing the progression of magnetization to be self-consistently locked to the spin.
Anisotropic profiles in the spin polarization of multichannel semiconductor rings with Rashba spin orbit coupling
Quantum Rings with Rashba spin orbit coupling: a path integral approach
Interplay of Rashba spin orbit coupling and disorder in the conductance properties of a four terminal junction device
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