H-mode physics of near double null plasmas in MAST and its applications to other tokamaks

H. Meyer; P. G. Carolan; G. D. Conway; G. Cunningham; L. D. Horton; A. Kirk; R. Maingi; F. Ryter; S. Saarelma; J. Schirmer; W. Suttrop; H. R. Wilson

doi:10.1088/0029-5515/46/1/008

H-mode physics of near double null plasmas in MAST and its applications to other tokamaks

H. Meyer
, P. G. Carolan
, G. D. Conway
, G. Cunningham
, L. D. Horton
, A. Kirk
, R. Maingi
, F. Ryter
, S. Saarelma
, J. Schirmer
, W. Suttrop
, H. R. Wilson

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

High triangularity regimes, approaching double null, have become more important recently. H-mode access and edge stability are affected by the close proximity of the second X-point to the last closed flux surface, but more experimental evidence is needed. Inter-machine comparisons of MAST with ASDEX Upgrade (AUG) and NSTX confirm the reduction of the H-mode power threshold in the true double null configuration (C-DN), first reported on MAST. A more negative radial edge electric field in L-mode observed on MAST and ASDEX Upgrade may be connected to the improved H-mode access. About twice the power density is needed on MAST to achieve edge pressures similar to AUG in L- and H-modes. However, on MAST the pressure is dominated by the edge density in H-mode. So far, in single null (SN) ELMs have not been observed on MAST with neutral beam heating powers P_NBI ≤ 2 MW, due to the different edge profiles in SN H-mode. This is supported by the modelling of the stability of the measured edge profiles against ideal peeling-ballooning.

Original language	English (US)
Pages (from-to)	64-72
Number of pages	9
Journal	Nuclear Fusion
Volume	46
Issue number	1
DOIs	https://doi.org/10.1088/0029-5515/46/1/008
State	Published - Jan 1 2006
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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10.1088/0029-5515/46/1/008

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title = "H-mode physics of near double null plasmas in MAST and its applications to other tokamaks",

abstract = "High triangularity regimes, approaching double null, have become more important recently. H-mode access and edge stability are affected by the close proximity of the second X-point to the last closed flux surface, but more experimental evidence is needed. Inter-machine comparisons of MAST with ASDEX Upgrade (AUG) and NSTX confirm the reduction of the H-mode power threshold in the true double null configuration (C-DN), first reported on MAST. A more negative radial edge electric field in L-mode observed on MAST and ASDEX Upgrade may be connected to the improved H-mode access. About twice the power density is needed on MAST to achieve edge pressures similar to AUG in L- and H-modes. However, on MAST the pressure is dominated by the edge density in H-mode. So far, in single null (SN) ELMs have not been observed on MAST with neutral beam heating powers PNBI ≤ 2 MW, due to the different edge profiles in SN H-mode. This is supported by the modelling of the stability of the measured edge profiles against ideal peeling-ballooning.",

author = "H. Meyer and Carolan, \{P. G.\} and Conway, \{G. D.\} and G. Cunningham and Horton, \{L. D.\} and A. Kirk and R. Maingi and F. Ryter and S. Saarelma and J. Schirmer and W. Suttrop and Wilson, \{H. R.\}",

year = "2006",

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T1 - H-mode physics of near double null plasmas in MAST and its applications to other tokamaks

AU - Meyer, H.

AU - Carolan, P. G.

AU - Conway, G. D.

AU - Cunningham, G.

AU - Horton, L. D.

AU - Kirk, A.

AU - Maingi, R.

AU - Ryter, F.

AU - Saarelma, S.

AU - Schirmer, J.

AU - Suttrop, W.

AU - Wilson, H. R.

PY - 2006/1/1

Y1 - 2006/1/1

N2 - High triangularity regimes, approaching double null, have become more important recently. H-mode access and edge stability are affected by the close proximity of the second X-point to the last closed flux surface, but more experimental evidence is needed. Inter-machine comparisons of MAST with ASDEX Upgrade (AUG) and NSTX confirm the reduction of the H-mode power threshold in the true double null configuration (C-DN), first reported on MAST. A more negative radial edge electric field in L-mode observed on MAST and ASDEX Upgrade may be connected to the improved H-mode access. About twice the power density is needed on MAST to achieve edge pressures similar to AUG in L- and H-modes. However, on MAST the pressure is dominated by the edge density in H-mode. So far, in single null (SN) ELMs have not been observed on MAST with neutral beam heating powers PNBI ≤ 2 MW, due to the different edge profiles in SN H-mode. This is supported by the modelling of the stability of the measured edge profiles against ideal peeling-ballooning.

AB - High triangularity regimes, approaching double null, have become more important recently. H-mode access and edge stability are affected by the close proximity of the second X-point to the last closed flux surface, but more experimental evidence is needed. Inter-machine comparisons of MAST with ASDEX Upgrade (AUG) and NSTX confirm the reduction of the H-mode power threshold in the true double null configuration (C-DN), first reported on MAST. A more negative radial edge electric field in L-mode observed on MAST and ASDEX Upgrade may be connected to the improved H-mode access. About twice the power density is needed on MAST to achieve edge pressures similar to AUG in L- and H-modes. However, on MAST the pressure is dominated by the edge density in H-mode. So far, in single null (SN) ELMs have not been observed on MAST with neutral beam heating powers PNBI ≤ 2 MW, due to the different edge profiles in SN H-mode. This is supported by the modelling of the stability of the measured edge profiles against ideal peeling-ballooning.

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JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 1

ER -

H-mode physics of near double null plasmas in MAST and its applications to other tokamaks

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