ELMs and strike point movements

Emilia R. Solano; S. Jachmich; F. Villone; N. Hawkes; Y. Corre; B. Alper; A. Loarte; R. A. Pitts; K. Guenther; A. Korotkov; M. Stamp; P. Andrew; J. Conboy; T. Bolzonella; M. Kempenaars; A. Cenedese; E. Rachlew

doi:10.1088/0029-5515/48/6/065005

ELMs and strike point movements

Emilia R. Solano, S. Jachmich, F. Villone, N. Hawkes, Y. Corre, B. Alper, A. Loarte, R. A. Pitts, K. Guenther, A. Korotkov, M. Stamp, P. Andrew, J. Conboy, T. Bolzonella, M. Kempenaars, A. Cenedese, E. Rachlew

Laboratory for Plasma Physics

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

Abstract

A detailed study of position changes of plasma strike points before and after edge localized modes (ELMs) in JET was carried out. A hypothesis being tested is that in an ELM previously closed edge field lines would open up, releasing plasma current and leading to the formation of a new, smaller separatrix. It was observed that after each ELM strike points have shifted a few centimetres towards the plasma centre (up in JET). In some cases a transient (<100 νs), upwards large (>10 cm) jump of strike positions was observed first. It was followed by an equally fast jump down to the shifted strike positions. Such behaviour has not been described in previous computational models of the ELM. Therefore two novel instability mechanisms are presented, which contribute to explain the changes in strike point position: an X-point instability, due to positive toroidal current density at the X-point, and a diamagnetic instability, due to negative inboard toroidal current density.

Original language	English
Article number	065005
Journal	Nuclear Fusion
Volume	48
Issue number	6
DOIs	https://doi.org/10.1088/0029-5515/48/6/065005
Publication status	Published - 1 Jun 2008

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title = "ELMs and strike point movements",

abstract = "A detailed study of position changes of plasma strike points before and after edge localized modes (ELMs) in JET was carried out. A hypothesis being tested is that in an ELM previously closed edge field lines would open up, releasing plasma current and leading to the formation of a new, smaller separatrix. It was observed that after each ELM strike points have shifted a few centimetres towards the plasma centre (up in JET). In some cases a transient (<100 νs), upwards large (>10 cm) jump of strike positions was observed first. It was followed by an equally fast jump down to the shifted strike positions. Such behaviour has not been described in previous computational models of the ELM. Therefore two novel instability mechanisms are presented, which contribute to explain the changes in strike point position: an X-point instability, due to positive toroidal current density at the X-point, and a diamagnetic instability, due to negative inboard toroidal current density.",

author = "Solano, \{Emilia R.\} and S. Jachmich and F. Villone and N. Hawkes and Y. Corre and B. Alper and A. Loarte and Pitts, \{R. A.\} and K. Guenther and A. Korotkov and M. Stamp and P. Andrew and J. Conboy and T. Bolzonella and M. Kempenaars and A. Cenedese and E. Rachlew",

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doi = "10.1088/0029-5515/48/6/065005",

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T1 - ELMs and strike point movements

AU - Solano, Emilia R.

AU - Jachmich, S.

AU - Villone, F.

AU - Hawkes, N.

AU - Corre, Y.

AU - Alper, B.

AU - Loarte, A.

AU - Pitts, R. A.

AU - Guenther, K.

AU - Korotkov, A.

AU - Stamp, M.

AU - Andrew, P.

AU - Conboy, J.

AU - Bolzonella, T.

AU - Kempenaars, M.

AU - Cenedese, A.

AU - Rachlew, E.

PY - 2008/6/1

Y1 - 2008/6/1

N2 - A detailed study of position changes of plasma strike points before and after edge localized modes (ELMs) in JET was carried out. A hypothesis being tested is that in an ELM previously closed edge field lines would open up, releasing plasma current and leading to the formation of a new, smaller separatrix. It was observed that after each ELM strike points have shifted a few centimetres towards the plasma centre (up in JET). In some cases a transient (<100 νs), upwards large (>10 cm) jump of strike positions was observed first. It was followed by an equally fast jump down to the shifted strike positions. Such behaviour has not been described in previous computational models of the ELM. Therefore two novel instability mechanisms are presented, which contribute to explain the changes in strike point position: an X-point instability, due to positive toroidal current density at the X-point, and a diamagnetic instability, due to negative inboard toroidal current density.

AB - A detailed study of position changes of plasma strike points before and after edge localized modes (ELMs) in JET was carried out. A hypothesis being tested is that in an ELM previously closed edge field lines would open up, releasing plasma current and leading to the formation of a new, smaller separatrix. It was observed that after each ELM strike points have shifted a few centimetres towards the plasma centre (up in JET). In some cases a transient (<100 νs), upwards large (>10 cm) jump of strike positions was observed first. It was followed by an equally fast jump down to the shifted strike positions. Such behaviour has not been described in previous computational models of the ELM. Therefore two novel instability mechanisms are presented, which contribute to explain the changes in strike point position: an X-point instability, due to positive toroidal current density at the X-point, and a diamagnetic instability, due to negative inboard toroidal current density.

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DO - 10.1088/0029-5515/48/6/065005

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SN - 0029-5515

VL - 48

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 6

M1 - 065005

ER -

ELMs and strike point movements

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