Compatibility of H-mode with a radiating boundary and divertor detachment

H. S. Bosch; O. Gruber; G. Haas; A. Kallenbach; M. Kaufmann; K. Lackner; V. Mertens; R. Neu; J. Neuhauser; F. Ryter; J. Schweinzer; H. Zohm

doi:10.1088/0741-3335/38/8/061

Compatibility of H-mode with a radiating boundary and divertor detachment

H. S. Bosch
, O. Gruber
, G. Haas
, A. Kallenbach
, M. Kaufmann
, K. Lackner
, V. Mertens
, R. Neu
, J. Neuhauser
, F. Ryter
, J. Schweinzer
, H. Zohm

Associate Professorship of Plasma-Material-Wechselwirkung

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

5 Scopus citations

Abstract

ITER or any other future fusion device will operate in H-mode to take advantage of the improved confinement. Stationary operation in H-mode, however, requires the occurrence of ELMs, and the resulting power load on the divertor target plates is not acceptable from the engineering point of view. Beyond this, the present divertor concepts rely on a cold and dense (possibly detached) divertor plasma. Large type-I ELMs, however, carry too large a power and possibly burn through such cold divertor plasmas. The completely detached H-mode (CDH-mode), recently established in ASDEX Upgrade shows detachment at both divertor target plates and small ELMs (so-called type-III ELMs), that do not burn through the divertor plasma. The extrapolation of this scenario to ITER, however, is an important question.

Original language	English
Pages (from-to)	1493-1496
Number of pages	4
Journal	Plasma Physics and Controlled Fusion
Volume	38
Issue number	8
DOIs	https://doi.org/10.1088/0741-3335/38/8/061
State	Published - 1996

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title = "Compatibility of H-mode with a radiating boundary and divertor detachment",

abstract = "ITER or any other future fusion device will operate in H-mode to take advantage of the improved confinement. Stationary operation in H-mode, however, requires the occurrence of ELMs, and the resulting power load on the divertor target plates is not acceptable from the engineering point of view. Beyond this, the present divertor concepts rely on a cold and dense (possibly detached) divertor plasma. Large type-I ELMs, however, carry too large a power and possibly burn through such cold divertor plasmas. The completely detached H-mode (CDH-mode), recently established in ASDEX Upgrade shows detachment at both divertor target plates and small ELMs (so-called type-III ELMs), that do not burn through the divertor plasma. The extrapolation of this scenario to ITER, however, is an important question.",

author = "Bosch, \{H. S.\} and O. Gruber and G. Haas and A. Kallenbach and M. Kaufmann and K. Lackner and V. Mertens and R. Neu and J. Neuhauser and F. Ryter and J. Schweinzer and H. Zohm",

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doi = "10.1088/0741-3335/38/8/061",

language = "English",

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TY - JOUR

T1 - Compatibility of H-mode with a radiating boundary and divertor detachment

AU - Bosch, H. S.

AU - Gruber, O.

AU - Haas, G.

AU - Kallenbach, A.

AU - Kaufmann, M.

AU - Lackner, K.

AU - Mertens, V.

AU - Neu, R.

AU - Neuhauser, J.

AU - Ryter, F.

AU - Schweinzer, J.

AU - Zohm, H.

PY - 1996

Y1 - 1996

N2 - ITER or any other future fusion device will operate in H-mode to take advantage of the improved confinement. Stationary operation in H-mode, however, requires the occurrence of ELMs, and the resulting power load on the divertor target plates is not acceptable from the engineering point of view. Beyond this, the present divertor concepts rely on a cold and dense (possibly detached) divertor plasma. Large type-I ELMs, however, carry too large a power and possibly burn through such cold divertor plasmas. The completely detached H-mode (CDH-mode), recently established in ASDEX Upgrade shows detachment at both divertor target plates and small ELMs (so-called type-III ELMs), that do not burn through the divertor plasma. The extrapolation of this scenario to ITER, however, is an important question.

AB - ITER or any other future fusion device will operate in H-mode to take advantage of the improved confinement. Stationary operation in H-mode, however, requires the occurrence of ELMs, and the resulting power load on the divertor target plates is not acceptable from the engineering point of view. Beyond this, the present divertor concepts rely on a cold and dense (possibly detached) divertor plasma. Large type-I ELMs, however, carry too large a power and possibly burn through such cold divertor plasmas. The completely detached H-mode (CDH-mode), recently established in ASDEX Upgrade shows detachment at both divertor target plates and small ELMs (so-called type-III ELMs), that do not burn through the divertor plasma. The extrapolation of this scenario to ITER, however, is an important question.

UR - https://www.scopus.com/pages/publications/0030205102

U2 - 10.1088/0741-3335/38/8/061

DO - 10.1088/0741-3335/38/8/061

M3 - Article

AN - SCOPUS:0030205102

SN - 0741-3335

VL - 38

SP - 1493

EP - 1496

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 8

ER -

Compatibility of H-mode with a radiating boundary and divertor detachment

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