Add to ORKGAs part of a collaboration between FNAL and CERN, Nb{sub 3}Sn Rutherford-type cables made of different wires (MJR and PIT) have been assembled in the sample holder at FNAL and tested at FRESCA (CERN). All cable samples had 28 strands with 1-mm diameter, and a trapezoidal cross-section with 0.9-1 degree keystone angle. All samples were tested at 4.3 and 1.8 K. After the first series of tests both cables were retested with higher prestress. The PIT sample was extensively retested at 1.9 K. During the second run the MJR sample was also tested at constant current in sweeping field in order to characterize its stability. All samples showed signs of instability and several voltage spikes were detected and recorded. Critical current and instabilit...
In large scale superconducting applications, like bending magnets in particle colliders, thermal sta...
The degradation of the critical current of impregnated Rutherford type Nb3Sn cables was investigated...
Fermilab is developing 11 T superconducting dipole magnets for future accelerators based on Nb{sub 3...
Rutherford-type cables made of high critical current Nb/sub 3/Sn strands are being used in several l...
In the framework of future LHC upgrades using Nb(3)Sn magnets, supported in part by the US LHC Accel...
For the LHC upgrade, CERN has launched a large program to develop next generation accelerator magnet...
In order to achieve higher magnetic fields and/or larger magnet apertures, next generation accelerat...
The so-called CERN-LHC DS upgrade relies on the use of 11 T dipole magnets. For these magnets 40 str...
Results obtained on 18-strand 10-mm-wide cable sample based on a 1-mm-diameter powder-in-tube (PIT) ...
Abstract. Fermilab is developing high field superconducting magnets for future accelerators based on...
In the framework of the development of an experimental 10 T Nb3Sn dipole coil for the LHC at CERN th...
The degradation of the critical current of impregnated Rutherford type Nb{sub 3}Sn cables is investi...
Within this thesis, the irreversible degradation of superconducting Nb3Sn wires and cables caused by...
In the framework of the Future Circular Collider design study for a 100 TeV circular collider, 16 T ...
In the framework of the development of high field magnets made of Nb$_3$Sn superconductors for proje...
In large scale superconducting applications, like bending magnets in particle colliders, thermal sta...
The degradation of the critical current of impregnated Rutherford type Nb3Sn cables was investigated...
Fermilab is developing 11 T superconducting dipole magnets for future accelerators based on Nb{sub 3...
Rutherford-type cables made of high critical current Nb/sub 3/Sn strands are being used in several l...
In the framework of future LHC upgrades using Nb(3)Sn magnets, supported in part by the US LHC Accel...
For the LHC upgrade, CERN has launched a large program to develop next generation accelerator magnet...
In order to achieve higher magnetic fields and/or larger magnet apertures, next generation accelerat...
The so-called CERN-LHC DS upgrade relies on the use of 11 T dipole magnets. For these magnets 40 str...
Results obtained on 18-strand 10-mm-wide cable sample based on a 1-mm-diameter powder-in-tube (PIT) ...
Abstract. Fermilab is developing high field superconducting magnets for future accelerators based on...
In the framework of the development of an experimental 10 T Nb3Sn dipole coil for the LHC at CERN th...
The degradation of the critical current of impregnated Rutherford type Nb{sub 3}Sn cables is investi...
Within this thesis, the irreversible degradation of superconducting Nb3Sn wires and cables caused by...
In the framework of the Future Circular Collider design study for a 100 TeV circular collider, 16 T ...
In the framework of the development of high field magnets made of Nb$_3$Sn superconductors for proje...
In large scale superconducting applications, like bending magnets in particle colliders, thermal sta...
The degradation of the critical current of impregnated Rutherford type Nb3Sn cables was investigated...
Fermilab is developing 11 T superconducting dipole magnets for future accelerators based on Nb{sub 3...