Developments towards DEMO Diagnostic and Control (D&C) system conceptual design are based on a subset of ITER mature diagnostic systems, whose eligibility for DEMO has been endorsed by their robustness, long lifetime expectancy and feasible remote maintenance [1]. They are devoted to ensure the machine operation in compliance with safety requirements and high availability. In particular, the evolution of divertor spectroscopic measurements on fusion experiments has demonstrated their potential as a control method for divertor protection via detachment control [2, 3] (near ultraviolet, 300-400 nm) and monitoring of the plasma-wall interaction (visible range, 400-700 nm) [4]. These characteristics make this method one of the leading candidate...
As a test fusion power plant, DEMO will have to demonstrate reliability and very long pulse/steady-s...
Power handling in the divertor has been investigated for Japan DEMO concept. System code suggests th...
As a test fusion power plant, DEMO will have to demonstrate reliability and very long pulse/steady-s...
The roadmap to the realization of fusion energy describes a path towards the development of a DEMO t...
The plasma diagnostic and control (D&C) system for a future tokamak demonstration fusion reactor (DE...
The plasma diagnostic and control (D&C) system for a future tokamak demonstration fusion reactor (DE...
The plasma diagnostic and control (D&C) system for a future tokamak demonstration fusion reactor...
Design and development of the ITER divertor VUV spectrometer have been performed from the year 1998,...
Mirrors will be used in ITER in all optical diagnostic systems observing the plasma radiation in the...
A new endoscope with optimised divertor view has been developed in order to survey and monitor the e...
The future tokamak demonstration fusion reactor (DEMO) will operate at unprecedented physical and te...
The ITER tokamak requires diagnostics that on the one hand have a high sensitivity, high spatial and...
An advanced design for Divertor Impurity Monitor (DIM) and IR Thermography (IRTh) is being developed...
The ITER tokamak is the next generation fusion device which will allow studying burning plasma obtai...
The stellarator W7-X will be capable of running in a quasicontinuous operating mode with 10 MW of el...
As a test fusion power plant, DEMO will have to demonstrate reliability and very long pulse/steady-s...
Power handling in the divertor has been investigated for Japan DEMO concept. System code suggests th...
As a test fusion power plant, DEMO will have to demonstrate reliability and very long pulse/steady-s...
The roadmap to the realization of fusion energy describes a path towards the development of a DEMO t...
The plasma diagnostic and control (D&C) system for a future tokamak demonstration fusion reactor (DE...
The plasma diagnostic and control (D&C) system for a future tokamak demonstration fusion reactor (DE...
The plasma diagnostic and control (D&C) system for a future tokamak demonstration fusion reactor...
Design and development of the ITER divertor VUV spectrometer have been performed from the year 1998,...
Mirrors will be used in ITER in all optical diagnostic systems observing the plasma radiation in the...
A new endoscope with optimised divertor view has been developed in order to survey and monitor the e...
The future tokamak demonstration fusion reactor (DEMO) will operate at unprecedented physical and te...
The ITER tokamak requires diagnostics that on the one hand have a high sensitivity, high spatial and...
An advanced design for Divertor Impurity Monitor (DIM) and IR Thermography (IRTh) is being developed...
The ITER tokamak is the next generation fusion device which will allow studying burning plasma obtai...
The stellarator W7-X will be capable of running in a quasicontinuous operating mode with 10 MW of el...
As a test fusion power plant, DEMO will have to demonstrate reliability and very long pulse/steady-s...
Power handling in the divertor has been investigated for Japan DEMO concept. System code suggests th...
As a test fusion power plant, DEMO will have to demonstrate reliability and very long pulse/steady-s...