Stability-optimized, force-cooled, multifilamentary superconductors

Due to the inherently transient behaviour of force cooled conductors there are no simple stability criteria. It is however possible to define a critical energy and to take it as a measure of stability. The critical energy is the minimum energy of a disturbance necessary to cause a quench of the cond

The two test conductors and the test facility SUL TAN are described. The critical energy has been measured as a function of disturbance length and duration, conductor current, background field, helium inlet temperature and pressure. The measured values are given and compared with those calculated nu

A numerical analysis of the thermal stability of a superconductor composite cooled by forced-flow supercritical helium has been performed. The analytical model consists of simultaneous two-dimensional coolant flow equations and a one-dimensional superconductor equation. The equations of conservation

Magnetic instabilities or flux jumps in multifilamentary superconducting composite conductors, exposed to a time-varying magnetic field perpendicular to the superconducting filaments, are studied. In particular, expressions for the stability limit field are determined for cases when the magnetic dif