We report measurements of the flux flow instability velocity in 8 nm thin superconducting NbRe microstrips. In particular, a change in vortex motion after the film has been lightly oxidised is observed. We propose a possible mechanism according to which pinning is caused by domain walls where the superconducting properties are discontinuous and support our claim by a toy-model time-dependent Ginzburg-Landau simulation. Since our model is very general and applies to any type-II superconductor, we expect similar effects on other air-sensitive ploycrystalline thin film superconductors.
Vortex Motion Study of Oxidised Superconducting NbRe Microstrips
Cirillo, Carla;Ejrnaes, Mikkel;Parlato, Loredana;Pepe, Giovanni Piero;Attanasio, Carmine;
2024
Abstract
We report measurements of the flux flow instability velocity in 8 nm thin superconducting NbRe microstrips. In particular, a change in vortex motion after the film has been lightly oxidised is observed. We propose a possible mechanism according to which pinning is caused by domain walls where the superconducting properties are discontinuous and support our claim by a toy-model time-dependent Ginzburg-Landau simulation. Since our model is very general and applies to any type-II superconductor, we expect similar effects on other air-sensitive ploycrystalline thin film superconductors.File in questo prodotto:
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