Solitons and spin transport in graphene boundary

Kumar Abhinav; Vivek M Vyas; Prasanta K Panigrahi

arXiv:1611.06376·hep-th·November 22, 2016

Solitons and spin transport in graphene boundary

Kumar Abhinav, Vivek M Vyas, Prasanta K Panigrahi

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TL;DR

This paper explores how gravitational Chern-Simons actions induce KdV solitons in graphene boundaries, enabling resistanceless spin transport under zero-curvature conditions, with implications for coherent spin transport in condensed matter systems.

Contribution

It demonstrates the role of gravitational Chern-Simons actions and KdV solitons in facilitating resistanceless spin transport in graphene boundary systems.

Findings

01

KdV solitons enable resistanceless spin transport.

02

Zero-curvature boundary condition is crucial.

03

Gravitational Chern-Simons action influences spin dynamics.

Abstract

It is shown that in (2+1)-dimensional condensed matter systems, induced gravitational Chern-Simons (CS) action can play a crucial role for coherent spin transport in a finite geometry, provided zero-curvature condition is satisfied on the boundary. The role of the resultant KdV solitons is explicated. The fact that KdV solitons can pass through each other without interference, represent 'resistanceless' spin transport.

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