Abstract
In addition to the critical current Ic (T), which generates Phase-Slip Centers (PSCs), thin superconducting films possess a well-defined second limiting current Ih, or current intensity able to maintain a preestablished hot spot. By pulsing step functions of the current and monitoring the voltage response on the nanosecond scale, we have determined (T ↔ Ic) and (T ↔ Ih). From a dynamic study of the two main modes of dissipation in YBCO and Nb films, it is concluded that PSCs are stable structures in current-biased bridges. In contrast, hot spots grow at a constant rate of a few tens of meters per second, determined by the thermal diffusivity of the material and by its bolometric response time. On reducing the current from Ih, the so-called healing length, or minimum normal length, was found, of the order of 0.2 μm in YBCO and 2 μm in Nb. In summary, the experiment provides three independent measurements (PSC nucleation time, velocity of growth, and minimum length) for only two parameters (D and τ).
Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
