## Experimental Studies of the Microwave Properties of 8.6 GHz Superconducting Niobium |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

EXPERIMENTAL ASPECTS OF THE MEASUREMENTS | 7 |

2 k Graph showing a resonance curve of an Xband cavity | 32 |

THEORETICAL CALCULATIONS AND EXPERIMENTAL DATA | 37 |

2 other sections not shown

### Common terms and phrases

alloy anisotropy BCS energy gap behavior cavity resonator change in penetration change in surface chapter cm/s coherence length cosine energy gap cosine gap curve one parameter dc magnetic field determined deviations dissertation electron mean free energy gap temperature equation experimental data exponential Fermi surfaces Fermi velocity Figure fitted curves fitted value function of temperature gap temperature dependence Graph illustrating Graph showing Halbritter Impedance On Material lattice specific heat London penetration depth low reduced temperature low temperature magnetic field magnitude material parameters mean free path microwave niobium and tantalum niobium cavity niobium data penetration depth change reduced energy gap resistance of niobium resonant frequency rf field SCSO short electron mean specific heat specular scattering superconducting cavity surface impedance surface reactance change surface reactance measurements surface resistance calculated surface resistance data tantalum and Nb tantalum cavity technique temperature measured transition temperature UJ UJ