Interaction between moving Abrikosov vortices in type-II superconductors

Abstract

The self-energy of a moving vortex is shown do decrease with increasing velocity. The interaction energy of two parallel slowly moving vortices differs from the static case by a small term v2; the "slow" motion is defined as having the velocity v<vc =c2/4πσλ, where σ (T) is conductivity of the normal excitations and λ (T) is London penetration depth. For higher velocities, v>vc(T), the interaction energy of two vortices situated along the velocity direction is enhanced and along the perpendicular direction is suppressed compared to the static case.