Propagation of normal zones in composite superconductors

This paper describes the technique and results of an experimental study on the propagaffon of normal zones under non-equilibrium conditions in composite superconductors. Bifilar windings of these superconductors were separated from the power source by a uniform magnetic field to allow the characteri

The perturbations induced by the varying current I or magnetic field may result in the instability of the superconducting state at some I=I m *I m there is no stable homogeneous superconducting state. The obtained result~ may be essential for understanding of the quench in the pulse magnet systems (

The initiation of superconducting state instability in composite superconductors due to heat disturbances is investigated. The instability development results as a rule in the transition of the superconductor into the resistive state and normal zone propagation along the conductor, It is shown that

This paper presents a numerical analysis of the evolution of normal zones in a composite superconductor based on a novel heat conduction equation which takes into account the finite speed of thermal wave propagation and the inertia of the internal heat source. The results are compared with those obt

The thermoelectric mechanism of the asymmetrical velocity of normal zone propagation in superconductors, relative to the direction of the transport current is suggested. The difference of the normal-superconducting interface velocities parallel and anti-parallel to the current direction due to this

A normal zone propagation model has been developed for superconducting composites under adiabatic conditions. It is based on the Whetstone-Roos model, originally developed for normal zone propagation in adiabatic wires of unclad superconductor. The model takes into account the temperature and magnet