Influence of a transverse conductance on current sharing in a two-layer superconducting cable

In a system of parallel superconducting wires, which are connected at their ends, any two conductors form a closed superconducting loop, in which, according to the law of induction, no variation of the enclosed magnetic flux can occur. If a transverse magnetic field is applied to the system, the clo

As the critical current of a single a.c. superconducting wire cannot be more than several tens of amperes, such single wires (strands) are bundled and twisted to make cables with a large current capacity. As the result of the twisting and bundling, a longitudinal magnetic field parallel to a strand

For the current distribution inside a multifilamentary superconducting wire carring a dc transport current in a rapidly changing transverse magnetic field, inconsistencies with the existing models are shown by the following experimental evidence: when a transverse magnetic field is applied, the dist

## Abstract A microchannel forms a laminar flow if the fluid velocity is sufficiently slow. It is important to clarify the effect of gravity on laminar flow, since several microsystems require side‐by‐side laminar flow, which does not possess an interfacial tension. In this work, the influence of g

Abshaet -The paper examines the influence of the relative electric conductivity of the solution and matrix phases on the potential distribution in flow-through porous electrodes working under limiting current conditions. The solution giving the potential distribution is deduced and is experimentally