UKAEA Papers

"Understanding reactor relevant tokamak pedestals"

• C J Ham
• A Bokshi
• D Brunetti
• G Bustos Ramirez
• B Chapman
• J W Connor
• D Dickinson
• A R Field
• J P Graves
• T Kiviniemi
• S Leerink
• B McMillan
• S Newton
• S Pamela
• C M Roach
• S Saarelma
• J Simpson
• S F Smith
• P Strand
• A Virtanen
• the JET Contributors*

The pedestal plays an important role in determining the confinement in tokamak H-mode plasmas. However, the steep pressure gradients in this transport barrier also lead to edge localized modes (ELMs) [1]. There is good understanding of the pedestal in type I ELM regimes [2], however, type I ELMs are known to damage plasma facing components and f…

"Pedestal Stability Analysis on MAST in preparation for MAST-U"

• M. Knolker
• T. Osborne
• E. Belli
• S. Henderson
• A. Kirk
• L. Kogan
• S. Saarelma
• P. B. Snyder

In preparation for the upcoming MAST-U campaign, pedestal stability of spherical tokamaks is revisited by investigating standard H-mode discharges on MAST. As a step beyond previous studies, both ion and electron profiles are used for obtaining equilibria and a diverse set of pedestals is evaluated. Stability analysis with the ELITE and CGYRO codes…

"The dependence of exhaust power components on edge gradients in JET-C and JET-ILW H-mode plasmas"

• A R Field
• J M Fontdecaba
• L Frassinetti
• L Horvath
• Hyun-Tae Kim
• C Maggi
• C M Roach
• S Saarelma
• M Sertoli
• G Szepeisi
• JET contributors

The exhaust (loss) power components due to ELMs, radiation and heat transport across the edge transport barrier (ETB) between ELMs are quantifed for H-mode plasmas in JET-C and JET-ILW to provide data for comparison with simulations of pedestal heat transport. In low-current, JET-ILW pulses with a low rate of gas fuelling, the pedestal heat tran…

"Self-Consistent Pedestal Prediction of JET-ILW"

• S. Saarelma
• L. Frassinetti
• P. Bilkova
• C.D. Challis
• A. Chankin
• R. Fridström
• L. Garzotti
• L. Horvath
• C.F. Maggi
• JET Contributors

The self-consistent core-pedestal prediction model of a combination of EPED1 type pedestal prediction and a simple stiff core transport model is able to predict type I ELMy pedestals of a large database JET-ILW (ITER-like wall) at the similar accuracy as is obtained when the experimental global plasma b is used as input. The neutral penetration …

"Mixed Hydrogen-Deuterium plasmas on JET ILW"

• D. B. King
• E. Viezzer
• I. Balboa
• M. Baruzzo
• E. Belonohy
• J. Buchanan
• I.S. Carvalho
• K. Cave-Ayland
• I. Coffey
• C.D. Challis
• E.G. Delabie
• L. Garzotti
• S. Hall
• J.Hillesheim
• L. Horvath
• E. Joffrin
• D. Keeling
• K. Kirov
• C.F. Maggi
• M. Maslov
• S. Saarelma
• S. Silburn
• E.R. Solano
• M. Stamp
• D. Valcarcel
• H.Weisen

A study of mixed hydrogen-deuterium H-mode plasmas has been carried out in JET-ILW to strengthen the physics basis for extrapolations to JET D-T operation and to support the development of strategies for isotope ratio control in future experiments. Variations of input power, gas fuelling and isotopic mixture were performed in H-mode plasmas of the…

"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

"The effect of pacing pellets on ELMs, W impurity behaviour and pedestal characteristics in high-power, JET-ILW H-mode plasmas"

• A. R. Field
• P. Carvalho
• L. Garzotti
• E. Lerche
• C. Maggi
• F. Rimini
• C. Roach
• S. Saarelma
• M. Sertoli
• JET contributors

In high-performance, ITER baseline-scenario pulses (3MA/2.7T) in JET-ILW with high levels (~ 32 MW) of heating power, typically ~ 20-40% of the input power is radiated, predominantly by W impurities, which are sputtered from the divertor targets and reach the confined plasma. Sustained ELMy H-mode operation at such high heating power in JET-ILW req…

"Isotope dependence of the type I ELMy H-mode pedestal in JET-ILW Hydrogen and Deuterium plasmas"

• L. Horvath
• C.F. Maggi
• A. Chankin
• S. Saarelma
• A.R. Field
• E. Belonohy
• A. Boboc
• G. Corrigan
• E.G. Delabie
• J. Flanagan
• L. Frassinetti
• C. Giroud
• D. Harting
• D. Keeling
• D. King
• M. Maslov
• G.F. Matthews
• S. Menmuir
• S.A. Silburn
• J. Simpson
• A.C.C Sips
• H. Weisen
• K.J. Gibson
• JET Contributors

The pedestal structure, ELM losses and linear MHD stability are analysed in a series of JET-ILW H and D type I ELMy H-mode plasmas. The pedestal pressure (pPED) is typically higher in D than in H at the same input power, with the difference mainly due to lower density in H than in D. At the same input power, the pedestal electron pres…

"Comparing electromagnetic instabilities in global gyrokinetic simulations with local and MHD models"

• J. P. Martin-Collar
• B. F. McMillan
• S. Saarelma
• A. Bottino

We perform a study of system-scale to gyro-radius scale electromagnetic modes in a pedestal-like equilibrium using a gyrokinetic code ORB5, and compare to the results of a local gyrokinetic code, GS2, and an MHD energy principle code, MISHKA. In the relevant large-system, short wavelength regime, good agreement between the gyrokinetic codes is foun…

"Numerical survey of predicted peeling response in ELM mitigated and suppressed phases on ASDEX Upgrade"

• D A Ryan
• M Dunne
• A Kirk
• S Saarelma
• W Suttrop
• C Ham
• Y Q Liu
• M Willensdorfer
• the ASDEX Upgrade team
• the MST1 team

A numerical survey of the plasma response in ASDEX Upgrade ELM control experiments is conducted, to clarify the role of triangularity in the suppression mechanism. The pedestal pressure increases with triangularity consistent with previous work [2], which modestly boosts the peeling response. However, the peeling response decreases with increasi…