Distribution of Electric Field and Charge in Superconducting Strips Induced by Hall Effects

Abstract

Macroscopic distribution of electric field and electric charge arising from Hall effects in superconducting strip lines is investigated. Vortex motion with Hall effects brings about both a longitudinal electric field E y (along the strips) and a transverse electric field E x (across the strips). We analytically determine the electric-field distribution using a scaling law E x oc E m y with an exponent 1 ≤ m < 2, and then derive a distribution of sheet charge q(x) using a nonlocal relationship between E x (x) and q(x). The macroscopic charge arises from polarization of moving vortices.