Reduced strain sensitivity of the critical current of Nb₃Sn multifilamentary wires

approach to solve the mWMIS mWMIS problem problem The experimental results were shown to The experimental results were shown to. support our approach support

We investigated the stress dependence and the irreversible reduction of the critical current under transverse compressive load in high- performance powder-in-tube (PIT) Nb 3 Sn

Further work will be required to optimize the process (temperature, doping, powder size distribution) to achieve not only a reduction of thermal conductivity but also optimization

Correlating the experimental data of hydroxyl radicals photogeneration with theoretical calculations results, it is evident that the increasing order of photocatalytic activity

For the tests reported in this manuscript, the axial WASP measurements were done at 15T < B < 19T with two different objectives: (1) to investigate the wire’s crit- ical

Very high upper critical fields and enhanced critical current densities in Nb 3 Sn superconductors based on Nb–Ta–Zr alloys and internal oxidation... Very high upper critical fields

Two different types of voids can be detected in this type of wires: one inside the copper matrix and the other inside the Nb3Sn sub-elements.. The former type can be related to

Coil azimuthal stress distribution after magnet cool-down (left) and at the end of the quench discharge for the reference event at nominal current (right).. The effect of