UKAEA Papers

"Analysis of Rotating Collectors from the Private Region of JET with Carbon Wall and Metallic ITER-like Wall"

• J. Beal
• A. Widdowson
• K. Heinola
• A. Baron-Wiechec
• K. J. Gibson
• J. P. Coad
• E. Alves
• B. Lipschultz
• A. Kirschner
• G. F. Matthews
• S. Brezinsek
• JET-EFDA Contributors

Rotating collectors are used in JET to provide time-resolved measurements of erosion and redeposition of vessel materials. The silicon collecting disks rotate behind an aperture, driven by pulsing of the toroidal magnetic field, with the deposits analysed ex-situ by Nuclear Reaction Analysis. The angular dependence of deposition is mapped to discha…

"Coherence imaging of scrape-off-layer and divertor impurity flows in the Mega Amp Spherical Tokamak"

• S. A. Silburn
• J. R. Harrison
• J. Howard
• K. J. Gibson
• H. Meyer
• C. A. Michael
• R. M. Sharples

A new coherence imaging Doppler spectroscopy diagnostic has been deployed on the UK’s Mega Amp Spherical Tokamak for scrape-off-layer and divertor impurity flow measurements. The system has successfully obtained 2D images of C III, C II, and He II line-of-sight flows, in both the lower divertor and main scrape-off-layer. Flow imaging has been obt…

"Characterisation of disruption mitigation via massive gas injection on MAST"

• A.J. Thornton
• K.J. Gibson
• J.R. Harrison
• M. Lehnen
• R. Martin
• A. Kirk
• The Mast Team

Disruptions are of significant concern to future devices, due to the large amount of energy released during the rapid quenching of the plasma. Disruption mitigation has been performed on MAST, to study the effect on heat loads and disruption time scales in a spherical tokamak. Massive gas injection is performed using a disruption mitigation valve c…

"A field programmable gate array unit for the diagnosis and control of neoclassical tearing modes on MAST"

• T. O’Gorman
• G. Naylor
• K. J. Gibson
• B. Huang
• G. J. Mcardle
• et al.

A real-time system has been developed to trigger both the MAST Thomson scattering (TS) system and the plasma control system on the phase and amplitude of neoclassical tearing modes (NTMs), extending the capabilities of the original system. This triggering system determines the phase and amplitude of a given NTM using magnetic coils at different tor…

"L-H transition and pedestal studies on MAST"

• H. Meyer
• M.F.M De Bock
• N.J. Conway
• S.J Freethy
• K. Gibson
• J. Hiratsuka
• A. Kirk
• C.A. Michael
• T. Morgan
• R. Scannell
• G. Naylor
• S. Saarelma
• A.N Saveliev
• V.F. Shevchenko
• W. Suttrop
• D. Temple
• R.G.L. Vann
• The Mast
• Nbi Teams

"A 130 point Nd:YAG Thomson scattering diagnostic on MAST"

• R. Scannell
• M. J. Walsh
• M. R. Dunstan
• J. Figueiredo
• G. Naylor
• T. O’Gorman
• K. J. Gibson
• H. Wilson
• S. Shibaev

A Thomson scattering diagnostic designed to measure both edge and core physics has been implemented on MAST. The system uses eight Nd:YAG lasers, each with a repetition rate of 30 Hz. The relative and absolute timing of the lasers may be set arbitrarily to produce fast bursts of measurements to suit the time evolution of the physics being studied. …

"Design of a new Nd:YAG Thomson scattering system for MAST"

• R. Scannell
• M. J. Walsh
• P. G. Carolan
• A. C. Darke
• M. R. Dunstan
• R. B. Huxford
• G. McArdle
• D. Morgan
• G. Naylor
• T. O’Gorman
• S. Shibaev
• N. Barratt
• K. J. Gibson
• G. J. Tallents
• H. R. Wilson

A new infrared Thomson scattering system has been designed for the MAST tokamak. The system will measure at 120 spatial points with 10 mm resolution across the plasma. Eight 30 Hz 1.6 J Nd:YAG lasers will be combined to produce a sampling rate of 240 Hz. The lasers will follow separate parallel beam paths to the MAST vessel. Scattered light will b…