Surface-Barrier Effects in the Microwave Second-Harmonic Response of Superconductors in the Mixed State

TL;DR

This study investigates the transient microwave second-harmonic response of superconductors in the mixed state, revealing two relaxation regimes influenced by surface barriers and magnetic relaxation.

Contribution

It provides new insights into the surface-barrier effects on the microwave response of superconductors under dynamic magnetic fields.

Findings

Initial exponential decay lasts about 10 seconds.

Logarithmic decay occurs over minutes due to magnetic relaxation.

Surface barriers significantly influence the microwave response.

Abstract

We report on transient effects in the microwave second-order response of different type of superconductors in the mixed state. The samples have contemporarily been exposed to a dc magnetic field, varying with a constant rate of 60 Oe/s, and a pulsed microwave magnetic field. The time evolution of the signal radiated at the second-harmonic frequency of the driving field has been measured for about 500 s from the instant in which the dc-field sweep has been stopped, with sampling time of about 0.3 s. We show that the second-harmonic signal exhibits two relaxation regimes; an initial exponential decay, which endures roughly 10 s, and a logarithmic decay in the time scale of minutes. Evidence is given that the decay in the time scale of minutes is ruled by magnetic relaxation over the surface barrier.