Add to ORKGThe DIII-D ECH system includes three launcher assemblies each of which can accommodate the rf beams from two gyrotrons. The launchers use four different designs for the mirrors which focus and direct the beams into the tokamak. The designs use molybdenum brazed to graphite, thin Glidcop or variable thickness Glidcop. A fourth design with laminated Glidcop/stainless steel construction has been operated, but no thermal data are available. All the mirrors operate without active cooling. This paper presents preliminary analyses and measurements of the thermal performance of the three designs for which data have been obtained
The Mirror one Lower (LM1) is part of the in-vessel quasi-optical beam propagation system for the IT...
Three 110 GHz gyrotrons with nominal output power of 1 MW each have been installed and are operation...
105/140Ghz dual frequency gyrotron is used in KSTAR tokamak for an electron cyclotron resonance heat...
LAUNCHER PERFORMANCE IN THE DIII-D SYSTEM. The thermal performance of three different designs for th...
A271 TESTS AND PERFORMANCE ON THE SIX GYROTRON SYSTEM ON THE DIII-D TOKAMAK. The DIII-D gyrotron com...
The launcher mirrors will allow the injection of microwave power from the gyrotrons in the plasma of...
The DIII-D program is presently commissioning the first NM gyrotron of a planned 3 MW, I 10 GHz elec...
A271 PERFORMANCE OF THE DIII-D SYSTEM. Three 110 GHz gyrotrons with nominal output power of 1 MW eac...
Divertor Tokamak Test (DTT) facility, the Italian fusion machine, foresees the Electron Cyclotron Re...
Two 110 GHz gyrotrons with nominal output power of 1 MW each have been installed on the DIII-D tokam...
For the future stellarator W7-X in Greifswald, a powerful electron cyclotron resonance heating (ECRH...
The 2 MW, 110 GHz ECH system was based on the General Atomics Proposal to the Department of Energy: ...
The DIII-D ECH complex is being upgraded with three new depressed collector gyrotrons. The performan...
Several new protective systems are being installed on the DIII D tokamak to increase the safety marg...
OAK A271 RECENT DEVELOPMENTS ON THE 110 GHZ ELECTRON CYCLOTRON INSTALLATION ON THE DIII-D TOKAMAK. S...
The Mirror one Lower (LM1) is part of the in-vessel quasi-optical beam propagation system for the IT...
Three 110 GHz gyrotrons with nominal output power of 1 MW each have been installed and are operation...
105/140Ghz dual frequency gyrotron is used in KSTAR tokamak for an electron cyclotron resonance heat...
LAUNCHER PERFORMANCE IN THE DIII-D SYSTEM. The thermal performance of three different designs for th...
A271 TESTS AND PERFORMANCE ON THE SIX GYROTRON SYSTEM ON THE DIII-D TOKAMAK. The DIII-D gyrotron com...
The launcher mirrors will allow the injection of microwave power from the gyrotrons in the plasma of...
The DIII-D program is presently commissioning the first NM gyrotron of a planned 3 MW, I 10 GHz elec...
A271 PERFORMANCE OF THE DIII-D SYSTEM. Three 110 GHz gyrotrons with nominal output power of 1 MW eac...
Divertor Tokamak Test (DTT) facility, the Italian fusion machine, foresees the Electron Cyclotron Re...
Two 110 GHz gyrotrons with nominal output power of 1 MW each have been installed on the DIII-D tokam...
For the future stellarator W7-X in Greifswald, a powerful electron cyclotron resonance heating (ECRH...
The 2 MW, 110 GHz ECH system was based on the General Atomics Proposal to the Department of Energy: ...
The DIII-D ECH complex is being upgraded with three new depressed collector gyrotrons. The performan...
Several new protective systems are being installed on the DIII D tokamak to increase the safety marg...
OAK A271 RECENT DEVELOPMENTS ON THE 110 GHZ ELECTRON CYCLOTRON INSTALLATION ON THE DIII-D TOKAMAK. S...
The Mirror one Lower (LM1) is part of the in-vessel quasi-optical beam propagation system for the IT...
Three 110 GHz gyrotrons with nominal output power of 1 MW each have been installed and are operation...
105/140Ghz dual frequency gyrotron is used in KSTAR tokamak for an electron cyclotron resonance heat...