Inertial mass of a superconducting vortex
Abstract
We show that a large contribution to the inertial mass of a moving superconducting vortex comes from transversal displacements of the crystal lattice. The corresponding part of the mass per unit length of the vortex line is Ml = ( me2c2/64πα2μλL4)(λL/ξ) , where me is the the bare electron mass, c is the speed of light, α=e2/c ≈ 1/137 is the fine structure constant, μ is the shear modulus of the solid, λL is the London penetration length and ξ is the coherence length. In conventional superconductors, this mass can be comparable to or even greater than the vortex core mass computed by Suhl.
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