Commensuration Effects on Skyrmion Hall Angle and Drag for Manipulation of Skyrmions on Two-Dimensional Periodic Substrates

Abstract: We examine the dynamics of an individually driven skyrmion moving through a background lattice of skyrmions coupled to a 2D periodic substrate as we vary the ratio of the number of skyrmions to the number of pinning sites across commensurate and incommensurate conditions. As the skyrmion density increases, the skyrmion Hall angle is nonmonotonic, dropping to low or zero values in commensurate states and rising to an enhanced value in incommensurate states. Under commensuration, the driven skyrmion is channeled… Show more

“…Extensive studies of commensurability effects have shown that they are associated with distinctive behavior in many systems, including superconducting vortices [67][68][69] , colloidal particles 70 , Wigner crystals 71 , and vortices in Bose-Einstein condensates 72,73 . Much less work has been done on commensurability effects in skyrmion systems 74,75 . Recently, Reichhardt et al 75 investigated commensuration effects for skyrmions in periodic pinning and found that the skyrmion Hall angle is non-monotonic, dropping to zero at commensurate states and returning to a finite value for incommensurate states.…”

“…Much less work has been done on commensurability effects in skyrmion systems 74,75 . Recently, Reichhardt et al 75 investigated commensuration effects for skyrmions in periodic pinning and found that the skyrmion Hall angle is non-monotonic, dropping to zero at commensurate states and returning to a finite value for incommensurate states.…”

Soliton motion in skyrmion chains: Stabilization and guidance by nanoengineered pinning

“…Extensive studies of commensurability effects have shown that they are associated with distinctive behavior in many systems, including superconducting vortices [67][68][69] , colloidal particles 70 , Wigner crystals 71 , and vortices in Bose-Einstein condensates 72,73 . Much less work has been done on commensurability effects in skyrmion systems 74,75 . Recently, Reichhardt et al 75 investigated commensuration effects for skyrmions in periodic pinning and found that the skyrmion Hall angle is non-monotonic, dropping to zero at commensurate states and returning to a finite value for incommensurate states.…”

“…Much less work has been done on commensurability effects in skyrmion systems 74,75 . Recently, Reichhardt et al 75 investigated commensuration effects for skyrmions in periodic pinning and found that the skyrmion Hall angle is non-monotonic, dropping to zero at commensurate states and returning to a finite value for incommensurate states.…”

Soliton motion in skyrmion chains: Stabilization and guidance by nanoengineered pinning

Soliton Motion in Skyrmion Chains