Add to ORKGA disk-shaped superconducting sample is welded onto an Nb support cylinder and exposed to the magnetic RF field of a four wire transmission line resonator. The fields on the cylinder wall decay in a cut-off like fashion in such a way that they perturb the measurement very little. RF dissipation of the disk is determined by substitution with a d.c. heater on the back of the sample which is made to produce the same temperature rise, controlled by thermometers.
Within this work, the design, production and commissioning of an optimized Quadrupole Resonator is p...
Recent cavity results with niobium have demonstrated the necessity of a good understanding of both ...
In particle accelerators superconducting RF cavities are widely used to achieve high accelerating gr...
At CERN a compact Quadrupole Resonator has been re-commissioned for the RF characterization of super...
The Quadrupole Resonator, designed to measure the surface resistance of superconducting samples at 4...
The quadrupole resonator allows measurement of the RF properties of superconducting (sc) films depos...
The systematic research on superconducting thin films requires dedicated testing equipment. The Qua...
The quadrupole resonator QPR is a dedicated sample test cavity for the RF characterization of supe...
The quadrupole resonator (QPR) was constructed in 1997 to measure the surface resistance of niobium ...
The Quadrupole Resonator (QPR) was constructed in 1997 to measure the surface resistance of niobium ...
Abstract Current superconducting cavities are generally made of solid Niobium. A possibility to re...
The quadrupole resonator (QPR) is a dedicated sample-test cavity for the RF characterization of supe...
Test cavities to characterize superconductor samples are of great interest for the development of ma...
Being able to obtain BCS surface resistance and material properties from the same surface is necess...
In this thesis an optimized calorimetry chamber is developed, providing at and easy mountable sample...
Within this work, the design, production and commissioning of an optimized Quadrupole Resonator is p...
Recent cavity results with niobium have demonstrated the necessity of a good understanding of both ...
In particle accelerators superconducting RF cavities are widely used to achieve high accelerating gr...
At CERN a compact Quadrupole Resonator has been re-commissioned for the RF characterization of super...
The Quadrupole Resonator, designed to measure the surface resistance of superconducting samples at 4...
The quadrupole resonator allows measurement of the RF properties of superconducting (sc) films depos...
The systematic research on superconducting thin films requires dedicated testing equipment. The Qua...
The quadrupole resonator QPR is a dedicated sample test cavity for the RF characterization of supe...
The quadrupole resonator (QPR) was constructed in 1997 to measure the surface resistance of niobium ...
The Quadrupole Resonator (QPR) was constructed in 1997 to measure the surface resistance of niobium ...
Abstract Current superconducting cavities are generally made of solid Niobium. A possibility to re...
The quadrupole resonator (QPR) is a dedicated sample-test cavity for the RF characterization of supe...
Test cavities to characterize superconductor samples are of great interest for the development of ma...
Being able to obtain BCS surface resistance and material properties from the same surface is necess...
In this thesis an optimized calorimetry chamber is developed, providing at and easy mountable sample...
Within this work, the design, production and commissioning of an optimized Quadrupole Resonator is p...
Recent cavity results with niobium have demonstrated the necessity of a good understanding of both ...
In particle accelerators superconducting RF cavities are widely used to achieve high accelerating gr...