A.C. Losses and Flux Pinning in High Temperature SuperconductorsAnant Narlikar Focuses on the issue of AC losses in wires and tapes, with chapters on AC losses of HTS tapes and wires, AC susceptibility and losses of Bi- 2223/Ag tapes in perpendicular AC magnetic fields, AC losses in bulk high-temperature superconductors, modeling and computation of AC losses in HTS conductors and magnets, residual losses in high Tc superconductors, transport property and AC losses of high Tc superconducting tape and conductors, and flux pinning in 123-type high Tc superconductors. |
Contents
Chapter1 | 1 |
Selffield losses due | 14 |
Losses due to applied magnetic fields | 31 |
Copyright | |
1 other sections not shown
Common terms and phrases
A/cm² AC field AC loss AC magnetic field AC susceptibility Appl applied field approximation aspect ratio Bean model component coupling loss critical current density current distribution curve cylinder decrease E-J characteristic EC model eddy current effect electric field ellipse equation experimental external magnetic field field amplitude Figure filamentary region filaments flux creep flux flow flux pinning function grain boundaries high temperature superconductors high-Te HTS conductors HTS tapes HTSC power-cable conductor hysteresis loss hysteretic IEEE Trans increase inductive intergranular Jc value layer Lett loop loss density loss per cycle loss power magnetic field magnetic flux matrix Maxwell's equations measured melt-solidification multifilamentary NdBCO obtained oxygen parameters peak penetration field perpendicular field Phys Physica pinning force pinning mechanism pinning sites sample SC sheath single crystal sintering slab strip Supercond Technol thickness total loss transport current twist pitch voltage vortex vortices width wire YBCO