Open AccessDomain wall fringe field coupled spin logic
Author(s) -
Yu-Ming Hung,
Andrew D. Kent
Publication year - 2016
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.4973428
Subject(s) - nanomagnet , condensed matter physics , domain wall (magnetism) , ferromagnetism , magnetic domain , spin (aerodynamics) , magnetization , coupling (piping) , torque , magnetic field , perpendicular , orbit (dynamics) , materials science , spin–orbit interaction , field (mathematics) , physics , geometry , quantum mechanics , mathematics , aerospace engineering , pure mathematics , engineering , metallurgy , thermodynamics
A class of spin logic devices based on the spin-orbit induced spin-transfer torques requires magnetic coupling between electrically isolated ferromagnetic elements. Here we use micromagnetic modeling to study the magnetic coupling induced by fringe fields from chiral domain walls in perpendicularly magnetized nanowires. These domains can be displaced using spin-orbit torques from a proximal heavy metal layer. For a 16 nm width wire that is 1 nm thick, we find that spin-orbit torques induced domain wall propagation can reliably switch a proximal 16 nm diameter 1 nm thick nanomagnet. These results show a promising means of implementing spin logic with spin-orbit torques using elements with perpendicular magnetization, which does not require an applied magnetic field
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