Studies of High Temperature Superconductors: Advances in Research and Applications, Volume 14Nova Science Publishers, 1989 - High temperature superconductors |
Contents
Results and discussion | 7 |
CHAPTER 2 | 41 |
MECHANISM OF MICROWAVE ABSORPTION AND FLUX | 65 |
Copyright | |
37 other sections not shown
Common terms and phrases
AC susceptibility amplitude anisotropy applied field behavior BSCCO c-axis calculated Chaddah conventional superconductors corresponding critical current density critical field Critical State Model Cu-O planes dc field decreasing depinning disc dissipation effect equation experimental external magnetic field field values Figure flux bundle flux creep flux distribution flux lines flux penetration flux pinning fluxoids fluxons frequency H(kOe harmonic high temperature superconductors high-T higher field HTSC hysteresis cycle hysteresis loop increasing induced ions/cm² irradiated irreversibility field irreversibility line Jmag Lett linear Lorentz force low field low temperature magnetic hysteresis magnetisation magnetization curves magnetization measurements magnetometer mechanism Meissner microwave modulation niobium observed obtained parallel peak perpendicular Phys pinning centers pinning potential pinning strength plot region remanent sample schematically shielding currents shown in Fig signal single crystal specimen surface barrier technique temperature dependence thermal thin films type-II superconductors unirradiated vortex vortices YBCO