UKAEA Papers

"Parameter dependencies of the experimental nitrogen concentration required for detachment on ASDEX Upgrade and JET"

• S. S. Henderson
• M. Bernert
• C. Giroud
• D. Brida
• M. Cavedon
• P. David
• R. Dux
• J. R. Harrison
• A. Huber
• A. Kallenbach
• J. Karhunen
• B. Lomanowski
• G. Matthews
• A. Meigs
• R. A. Pitts
• F. Reimold
• M. L. Reinke
• S. Silburn
• N. Vianello
• S. Wiesen
• M. Wischmeier

While current tokamak experiments are beginning to utilise real-time feedback control systems to manage the plasma exhaust, future tokamaks still require validation of theoretical models used to predict the threshold impurity concentration required to facilitate stationary divertor operation. This work exploits new spectroscopic measurements of …

"Inference of divertor plasma characteristics using Bayesian multi-diagnostic analysis"

• C. Bowman
• J. R. Harrison
• B. Lipschultz
• S. Orchard
• K. J. Gibson
• M. Carr
• K. Verhaegh
• O. Myatra

Advancing our understanding of divertor plasma physics is limited by an inability to directly determine the plasma characteristics (density, temperature, etc) over the entire divertor cross-section. At best, diagnostics are able to measure ne and Te at isolated points. More commonly however, diagnostics only measure higher-level quantities (e.g. em…

"Overview of MAST and first physics results from MAST Upgrade"

• James Harrison

Recent results from MAST address key physics issues for ITER operations and the design of future devices, by advancing our understanding of through analysis of high-resolution data and numerical modelling. Modelling of the interaction between filaments with BOUT++ indicates filaments separated by more than 5x their width move independently, and …

"Optimization of JET-DT and ITER operation by developing an understanding of the role of low-Z impurity on the H-mode pedestal"

• C. Giroud
• N. Aiba
• F. Militello
• C. Challis
• A. Chankin
• B. Lomanowski
• D. Hatch
• J. Harrison
• D. Frigione
• D. Moulton
• S. Pamela
• F. Parra
• J. Parisi
• I. Putzai
• D. Refy
• S. Saarelma
• C. Stavrou
• B. Tal
• E. Belonohy
• S. Brezinsek
• S. Buller
• C. Bowman
• E. Delabie
• A. Field
• J. Fontdecaba
• A. Huber
• A. Meigs
• S. Menmuir
• J. Simpson
• JET Contributors

"FUSION ENERGY DEVELOPMENT APPLICATIONS UTILIZING THE SPHERICAL TOKAMAK AND ASSOCIATED RESEARCH NEEDS AND TOOLS"

• J.E. Menard
• R. Majeski
• M. Ono
• N.N. Bakharev
• V.K. Gusev
• M. Gryaznevich
• D. Kingham
• S. McNamara
• P. Thomas
• K. Hanada
• J. Harrison
• B. Lloyd
• Y.S. Hwang
• B. Lipschultz
• H. Wilson
• Y. Nagayama
• Y. Ono
• Y. Takase
• M. Reinke
• K. Tobita
• Z. Gao
• F. Alladio
• R.J. Fonck

The spherical torus/tokamak (ST) is a potentially attractive configuration for narrowing scientific and technical gaps to a fusion demonstration power plant and as a more compact and/or modular fusion power source. Due to a reduced plasma surface area to volume ratio, the ST configuration offers the potential to access high power exhaust heat fl…

"The determination of atomic collision cross sections using crossed electron and ion beams and some sources of error in such experiments"

• MFA Harrison

"A measurement of the cross section for production of He ions by electron impact excitation of ground state helium ions"

• DF Dance
• MFA Harrison
• ACH Smith

"Towards understanding the relative role of divertor geometry and magnetic topology on detachment"

• A. Fil
• B. Dudson
• B. Lipschultz
• D. Moulton
• O. Myatra
• K. Verhaegh
• O. Fevrier
• J. Harrison
• A. Thornton
• M. Wensing

Plasma detachment needs to be achieved in ITER [1] and future devices such as DEMO to dissipate most of the power in the Scrape-Off-Layer (SOL) and reduce the particle flux reaching the divertor targets. In order to enhance our capability to improve current, and design future tokamaks, we must improve our understanding of the relative effect on det…

"Predicting Scrape-Off Layer profiles and filamentary transport for reactor relevant devices"

• F. Militello
• R. Akers
• L. Appel
• B. Cannas
• S. Carcangiu
• B. Dudson
• A. Fanni
• T. Farley
• A. Kirk
• J.R. Harrison
• B. Lipshultz
• A. Montisci
• T. Nicholas
• J.T. Omotani
• F. Pisano
• F. Riva
• G. Sias
• N.R. Walkden
• A. Wynn
• the MAST
• JET5 teams

In magnetic confinement devices, boundary turbulence is responsible for transporting plasma and energy from the well-confined region towards the material surfaces where it can severely harm reactor relevant machines. It is therefore essential to develop a solid understanding of the mechanisms behind the transport in the edge of the plasma. Large fl…

"Filament identification in wide-angle high speed imaging of the Mega Amp Spherical Tokamak"

• T. Farley
• N. R. Walkden
• F. Militello
• M. Sanna
• J. Young
• S. S. Silburn
• J. Harrison
• L. Kogan
• I. Lupelli
• S. S. Henderson
• A. Kirk
• J.W. Bradley

A new inversion technique is presented for the identification of plasma filaments in wide-angle visible camera data. Direct inversion of camera data onto a field aligned basis is a poorly conditioned problem which is overcome by breaking the analysis into a `psuedo-inversion’ step followed by a `point spread function correction’ step. Camera …