The ITER tokamak requires diagnostics that on the one hand have a high sensitivity, high spatial and temporal resolution and a high dynamic range, while on the other hand are robust enough to survive in a harsh environment. In recent years significant progress has been made in addressing critical challenges to the development of spectroscopic (but also other) diagnostics. This contribution presents an overview of recent achievements in 4 topical areas: - First mirror protection and cleaning - Nuclear confinement - Radiation mitigation strategy for optical and electronic components - Calibration strategie
The roadmap to the realization of fusion energy describes a path towards the development of a DEMO t...
Developments towards DEMO Diagnostic and Control (D&C) system conceptual design are based on a subse...
Charge eXchange Recombination Spectroscopy (CXRS) will play a crucial role in the diagnosing of burn...
The ITER environment imposes many challenges for the various diagnostic systems. At the one hand dia...
The ITER environment imposes many challenges for the various diagnostic systems. At the one hand dia...
About half of all diagnostics presently foreseen for ITER will implement in-vessel metallic mirrors ...
Abstract. The development of diagnostic systems for next step Burning Plasma experiments (BPX) such ...
Metal mirrors will be implemented in about half of the ITER diagnostics. Mirrors in ITER will have t...
The development and design of the CXRS diagnostic for the core plasma of ITER is used as a pretext t...
The majority of optical diagnostics presently foreseen for ITER will implement in-vessel metallic mi...
Since the first feasibility studies of active beam spectroscopy on ITER in 1995 the proposed diagnos...
Light-based diagnostic systems of fusion reactors require optical mirrors to channel light through t...
ITER has diagnostics with machine protection, basic and advanced control, and physics roles. Several...
Light-based diagnostic systems of fusion reactors require optical mirrors to channel light through t...
Mirrors will be used in ITER in all optical diagnostic systems observing the plasma radiation in the...
The roadmap to the realization of fusion energy describes a path towards the development of a DEMO t...
Developments towards DEMO Diagnostic and Control (D&C) system conceptual design are based on a subse...
Charge eXchange Recombination Spectroscopy (CXRS) will play a crucial role in the diagnosing of burn...
The ITER environment imposes many challenges for the various diagnostic systems. At the one hand dia...
The ITER environment imposes many challenges for the various diagnostic systems. At the one hand dia...
About half of all diagnostics presently foreseen for ITER will implement in-vessel metallic mirrors ...
Abstract. The development of diagnostic systems for next step Burning Plasma experiments (BPX) such ...
Metal mirrors will be implemented in about half of the ITER diagnostics. Mirrors in ITER will have t...
The development and design of the CXRS diagnostic for the core plasma of ITER is used as a pretext t...
The majority of optical diagnostics presently foreseen for ITER will implement in-vessel metallic mi...
Since the first feasibility studies of active beam spectroscopy on ITER in 1995 the proposed diagnos...
Light-based diagnostic systems of fusion reactors require optical mirrors to channel light through t...
ITER has diagnostics with machine protection, basic and advanced control, and physics roles. Several...
Light-based diagnostic systems of fusion reactors require optical mirrors to channel light through t...
Mirrors will be used in ITER in all optical diagnostic systems observing the plasma radiation in the...
The roadmap to the realization of fusion energy describes a path towards the development of a DEMO t...
Developments towards DEMO Diagnostic and Control (D&C) system conceptual design are based on a subse...
Charge eXchange Recombination Spectroscopy (CXRS) will play a crucial role in the diagnosing of burn...