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IN THE EXPERIMENTAL APPARATUS AT 35 GHz
Microwave Cavity Design for Experiments with
17 other sections not shown
alloy anisotropic applied field applied magnetic field approximately bulk vortex calculated cavity resonance center conductor coherence length computer programs current density D.C. magnetic field dielectric resonators effective electrons Equation existence of nascent experimental experiments explain field H Figure I I Flgure fluid model flux flow frequency Gauss Ginzburg-Landau Ginzburg-Landau equations half power points hysteresis loops interior vortex lattice klystron Lorentz force magnetic pressure Meissner microwave absorption microwave conductivity microwave currents microwave losses microwave magnetic field microwave power microwave surface impedance mixed modulation nascent vortex layer nascent vortices normal order parameter output parallel magnetic field penetration depth perpendicular Phys reactance sample surface shown in Figure shows signal averaging slope soldered superheating and supercooling superheating field surface barrier surface impedance model surface reactance surface resistance surface sheath temperature transport current Type-II superconductor Type-l USER LI C0NJ voltage vortex cores vortex entry vortex nucleation wave waveguide