Add to ORKGThis paper describes the cooldown and testing of the first yin-yang magnet for the Mirror Fusion Test Facility. The introduction describes the superconducting magnet; the rest of the paper explains the tests prior to and including magnet cooldown and final acceptance testing. The MFTF (originally MX) was proposed in 1976 and the project was funded for construction start in October 1977. Construction of the first large superconducting magnet set was completed in May 1981 and testing started shortly thereafter. The acceptance test procedures were reviewed in May 1981 and the cooldown and final acceptance test were done by the end of February 1982. During this acceptance testing the magnet achieved its full design current and field
The MFTF-B transition coil and A-cell magnet designs use variations of the copper-stabilized NbTi co...
The Axicell MFTF-B magnet system will provide the field environment necessary for tandem mirror plas...
During FY76 Lawrence Livermore Laboratory (LLL) continued its development of niobium tin (Nb/sub 3/S...
This paper describes the construction and testing of the Mirror Fusion Test Facility superconducting...
The mechanical response to winding and electromagnetic loads of the Mirror Fusion Test Facility (MFT...
Superconducting magnets for mirror fusion have evolved considerably since the Baseball II magnet in ...
The superconducting magnet system for the Mirror Fusion Test Facility (MFTF-B) consists of 24 magnet...
Mirror experiments have led the way in applying superconductivity to fusion research because of uniq...
The Mirror Fusion Test Facility (MFTF-B) now under construction at Lawrence Livermore National Labor...
During acceptance testing of the Mirror Fusion Test Facility (MFTF), we measured these tests: liquid...
A test program to determine the effectiveness of various magnetic shielding designs for MFTF-B beaml...
The Mirror Fusion Test Facility, scheduled for completion in October 1981, will contain a complex, s...
This paper addresses the stability aspects of several successful dc superconducting magnets such as ...
Since the entire Mirror Fusion Test Facility (MFTF-B) Magnet System was reconfigured from the origin...
This paper addresses the stability aspects of several successful dc superconducting magnets such as ...
The MFTF-B transition coil and A-cell magnet designs use variations of the copper-stabilized NbTi co...
The Axicell MFTF-B magnet system will provide the field environment necessary for tandem mirror plas...
During FY76 Lawrence Livermore Laboratory (LLL) continued its development of niobium tin (Nb/sub 3/S...
This paper describes the construction and testing of the Mirror Fusion Test Facility superconducting...
The mechanical response to winding and electromagnetic loads of the Mirror Fusion Test Facility (MFT...
Superconducting magnets for mirror fusion have evolved considerably since the Baseball II magnet in ...
The superconducting magnet system for the Mirror Fusion Test Facility (MFTF-B) consists of 24 magnet...
Mirror experiments have led the way in applying superconductivity to fusion research because of uniq...
The Mirror Fusion Test Facility (MFTF-B) now under construction at Lawrence Livermore National Labor...
During acceptance testing of the Mirror Fusion Test Facility (MFTF), we measured these tests: liquid...
A test program to determine the effectiveness of various magnetic shielding designs for MFTF-B beaml...
The Mirror Fusion Test Facility, scheduled for completion in October 1981, will contain a complex, s...
This paper addresses the stability aspects of several successful dc superconducting magnets such as ...
Since the entire Mirror Fusion Test Facility (MFTF-B) Magnet System was reconfigured from the origin...
This paper addresses the stability aspects of several successful dc superconducting magnets such as ...
The MFTF-B transition coil and A-cell magnet designs use variations of the copper-stabilized NbTi co...
The Axicell MFTF-B magnet system will provide the field environment necessary for tandem mirror plas...
During FY76 Lawrence Livermore Laboratory (LLL) continued its development of niobium tin (Nb/sub 3/S...