High Mach flow associated with X point MARFE and plasma detachment

A. Hatayama; H. Segawa; R. Schneider; D. P. Coster; N. Hayashi; S. Sakurai; N. Asakura; M. Ogasawara

doi:10.1088/0029-5515/40/12/305

High Mach flow associated with X point MARFE and plasma detachment

A. Hatayama, H. Segawa, R. Schneider, D. P. Coster, N. Hayashi, S. Sakurai, N. Asakura, M. Ogasawara

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

28 Citations (Scopus)

Abstract

High Mach flows and their formation mechanism in tokamak divertor regions have been studied. Numerical calculations using a two dimensional edge plasma simulation code (the B2-EIRENE code) have been made for the JT-60U open divertor geometry with discharge parameter ranges of relatively low input power and L mode experiments. In the high density case, typical formation of an X point MARFE, which is accompanied by plasma detachment, has been observed. At the same time, high Mach flows appear near the ionization front, where the plasma static pressure rapidly drops and is far away from the target plates. Redistribution from static pressure to dynamic pressure without a large momentum loss is shown to be a possible cause of the high Mach flows observed in the simulation. In addition, a simple 1-D analytic model along the field lines has been applied and the results are compared with the B2-EIRENE results in order to identify the formation mechanism of high Mach flows.

Original language	English
Pages (from-to)	2009-2021
Number of pages	13
Journal	Nuclear Fusion
Volume	40
Issue number	12
DOIs	https://doi.org/10.1088/0029-5515/40/12/305
Publication status	Published - 2000 Dec
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics
Condensed Matter Physics

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10.1088/0029-5515/40/12/305

Cite this

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title = "High Mach flow associated with X point MARFE and plasma detachment",

abstract = "High Mach flows and their formation mechanism in tokamak divertor regions have been studied. Numerical calculations using a two dimensional edge plasma simulation code (the B2-EIRENE code) have been made for the JT-60U open divertor geometry with discharge parameter ranges of relatively low input power and L mode experiments. In the high density case, typical formation of an X point MARFE, which is accompanied by plasma detachment, has been observed. At the same time, high Mach flows appear near the ionization front, where the plasma static pressure rapidly drops and is far away from the target plates. Redistribution from static pressure to dynamic pressure without a large momentum loss is shown to be a possible cause of the high Mach flows observed in the simulation. In addition, a simple 1-D analytic model along the field lines has been applied and the results are compared with the B2-EIRENE results in order to identify the formation mechanism of high Mach flows.",

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T1 - High Mach flow associated with X point MARFE and plasma detachment

AU - Hatayama, A.

AU - Segawa, H.

AU - Schneider, R.

AU - Coster, D. P.

AU - Hayashi, N.

AU - Sakurai, S.

AU - Asakura, N.

AU - Ogasawara, M.

PY - 2000/12

Y1 - 2000/12

N2 - High Mach flows and their formation mechanism in tokamak divertor regions have been studied. Numerical calculations using a two dimensional edge plasma simulation code (the B2-EIRENE code) have been made for the JT-60U open divertor geometry with discharge parameter ranges of relatively low input power and L mode experiments. In the high density case, typical formation of an X point MARFE, which is accompanied by plasma detachment, has been observed. At the same time, high Mach flows appear near the ionization front, where the plasma static pressure rapidly drops and is far away from the target plates. Redistribution from static pressure to dynamic pressure without a large momentum loss is shown to be a possible cause of the high Mach flows observed in the simulation. In addition, a simple 1-D analytic model along the field lines has been applied and the results are compared with the B2-EIRENE results in order to identify the formation mechanism of high Mach flows.

AB - High Mach flows and their formation mechanism in tokamak divertor regions have been studied. Numerical calculations using a two dimensional edge plasma simulation code (the B2-EIRENE code) have been made for the JT-60U open divertor geometry with discharge parameter ranges of relatively low input power and L mode experiments. In the high density case, typical formation of an X point MARFE, which is accompanied by plasma detachment, has been observed. At the same time, high Mach flows appear near the ionization front, where the plasma static pressure rapidly drops and is far away from the target plates. Redistribution from static pressure to dynamic pressure without a large momentum loss is shown to be a possible cause of the high Mach flows observed in the simulation. In addition, a simple 1-D analytic model along the field lines has been applied and the results are compared with the B2-EIRENE results in order to identify the formation mechanism of high Mach flows.

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JO - Nuclear Fusion

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High Mach flow associated with X point MARFE and plasma detachment

Abstract

ASJC Scopus subject areas

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