Add to ORKGThe current status of the mechanical design of the remote steering electron cyclotron resonance heating upper port launching system for ITER is presented. Although an alternative front steering launcher has now been selected as the reference design for ITER, the development of a remote steering launcher continues so that it can be used as a backup solution and as a candidate for DEMO. Since earlier proposals of a remote steering launcher could not fulfill the design criteria with respect to physics performance and because a number of engineering issues remained that have proven to be very difficult to solve, a change was applied to its layout. By increasing the length of the square waveguides that form the heart of the remote steering desig...
The design of the ITER ECRH system provides 20 MW millimeter wave power for central plasma ...
For the upper electron cyclotron wave launcher on the international thermonuclear experimental react...
For electron cyclotron resonance heating of the stellarator W7-X at IPP Greifswald, a 140 GHz/10 MW ...
The current status of the mechanical design of the remote steering electron cyclotron resonance heat...
A design is presented for the electron cyclotron (EC) heating and current drive system of the ITER u...
Electron cyclotron current drive will become the main scheme on ITER for the stabilization of neocla...
The design of a remote steering (RS) variant of the electron cyclotron heating (ECH) upper port laun...
Abstract. Electron Cyclotron Current Drive (ECCD) will become the main scheme on ITER for the stabil...
High-power millimetre wave beams employed on ITER for heating and Current drive at the 170 GHz elect...
Abstract. The ITER ECH heating and current drive system delivers 24MW (170GHz), which can be directe...
Abstract. The purpose of the ITER electron cyclotron resonance heating (ECRH) upper port launcher is...
The purpose of the ITER electron cyclotron resonance heating (ECRH) upper launcher (UL), or antennae...
For electron cyclotron resonance heating of the stellarator W7-X at IPP Greifswald, a 140 GHz/10 MW ...
The ITER Electron Cyclotron Heating and Current Drive Upper Launcher, developed by the ECHUL-CA Cons...
Abstract The design of the ITER electron cyclotron launchers recently reached the preliminary design...
The design of the ITER ECRH system provides 20 MW millimeter wave power for central plasma ...
For the upper electron cyclotron wave launcher on the international thermonuclear experimental react...
For electron cyclotron resonance heating of the stellarator W7-X at IPP Greifswald, a 140 GHz/10 MW ...
The current status of the mechanical design of the remote steering electron cyclotron resonance heat...
A design is presented for the electron cyclotron (EC) heating and current drive system of the ITER u...
Electron cyclotron current drive will become the main scheme on ITER for the stabilization of neocla...
The design of a remote steering (RS) variant of the electron cyclotron heating (ECH) upper port laun...
Abstract. Electron Cyclotron Current Drive (ECCD) will become the main scheme on ITER for the stabil...
High-power millimetre wave beams employed on ITER for heating and Current drive at the 170 GHz elect...
Abstract. The ITER ECH heating and current drive system delivers 24MW (170GHz), which can be directe...
Abstract. The purpose of the ITER electron cyclotron resonance heating (ECRH) upper port launcher is...
The purpose of the ITER electron cyclotron resonance heating (ECRH) upper launcher (UL), or antennae...
For electron cyclotron resonance heating of the stellarator W7-X at IPP Greifswald, a 140 GHz/10 MW ...
The ITER Electron Cyclotron Heating and Current Drive Upper Launcher, developed by the ECHUL-CA Cons...
Abstract The design of the ITER electron cyclotron launchers recently reached the preliminary design...
The design of the ITER ECRH system provides 20 MW millimeter wave power for central plasma ...
For the upper electron cyclotron wave launcher on the international thermonuclear experimental react...
For electron cyclotron resonance heating of the stellarator W7-X at IPP Greifswald, a 140 GHz/10 MW ...