An experimental study of propagation of a normal zone in composite superconductors

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

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

E ~per/ments were performed to measure the rain/mum energy, E, of an instantaneous point source, needed to mduce a propagating normal transition (quem?h) m a superconductor. The energy pulse was supphed to the superconductor by a mm/atur/zed heater element which had a thermal time constant of "" 20

Normal zone propagation in a superconductor with temperaturedependent properties is investigated. The analytical expression is derived for the limiting (maximum) velocity, accounting for arbitrary dependences of thermal conductivity, specific heat and heat transfer on temperature. The regularities