Add to ORKGRecent cavity results with niobium have demonstrated the necessity of a good understanding of both the BCS and residual resistance. For a complete picture and comparison with theory, it is essential that one can measure the RF properties as a function of field, temperature, frequency and ambient magnetic field. Standard cavity measurements are limited in their ability to change all parameters freely and in a controlled manner. On the other hand, most sample measurement setups operate at fairly high frequency, where the surface resistance is always BCS dominated. The quadrupole resonator, originally developed at CERN, is ideally suited for characterization of samples at typical cavity RF frequencies. We report on a modified versi...
We present a study concerning the operation of a superconducting RF cavity non doped niobium in ...
Performances of superconducting accelerating (SRF) cavities made of bulk niobium typically degrade a...
Superconducting RF is of increasing importance in particle accelerators. We have developed a resonan...
Abstract Current superconducting cavities are generally made of solid Niobium. A possibility to re...
The systematic research on superconducting thin films requires dedicated testing equipment. The Qua...
The surface resistance Rs of superconducting cavities can be obtained from the unloaded quality fact...
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 ...
At CERN a compact Quadrupole Resonator has been re-commissioned for the RF characterization of super...
Test cavities to characterize superconductor samples are of great interest for the development of ma...
The quadrupole resonator allows measurement of the RF properties of superconducting (sc) films depos...
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 ...
Nb3Sn is a very promising candidate material for future SRF cavities. With a critical temperature m...
The quadrupole resonator QPR is a dedicated sample test cavity for the RF characterization of supe...
We present a study concerning the operation of a superconducting RF cavity non doped niobium in ...
Performances of superconducting accelerating (SRF) cavities made of bulk niobium typically degrade a...
Superconducting RF is of increasing importance in particle accelerators. We have developed a resonan...
Abstract Current superconducting cavities are generally made of solid Niobium. A possibility to re...
The systematic research on superconducting thin films requires dedicated testing equipment. The Qua...
The surface resistance Rs of superconducting cavities can be obtained from the unloaded quality fact...
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 ...
At CERN a compact Quadrupole Resonator has been re-commissioned for the RF characterization of super...
Test cavities to characterize superconductor samples are of great interest for the development of ma...
The quadrupole resonator allows measurement of the RF properties of superconducting (sc) films depos...
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 ...
Nb3Sn is a very promising candidate material for future SRF cavities. With a critical temperature m...
The quadrupole resonator QPR is a dedicated sample test cavity for the RF characterization of supe...
We present a study concerning the operation of a superconducting RF cavity non doped niobium in ...
Performances of superconducting accelerating (SRF) cavities made of bulk niobium typically degrade a...
Superconducting RF is of increasing importance in particle accelerators. We have developed a resonan...