Magnetic Island Formation Due to Error Field in the JFT-2 Tokamak

Matsuda, Shinzaburo; Yoshikawa, M.

doi:10.1143/jjap.14.87

Cited by 17 publications

(17 citation statements)

References 1 publication

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“…A goal shared by most magnetic confinement concepts is to realize a configuration consisting of simply nested magnetic surfaces enveloping a closed field line, the magnetic axis [1,2]. In practice, small departures from this ideal configuration cause the flux surfaces to break into chains of magnetic islands, where each island is a tube of flux with its own private magnetic axis [3][4][5]. The primary significance of the islands is that heat can flow rapidly across them by following the field lines [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Theory and observations of magnetic islands

2009

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Abstract. Islands are a ubiquitous feature of magnetically confined plasmas. They arise as the result of plasma instabilities as well as imperfections in the coils. Effective techniques have been developed for keeping their width small. Even thin islands, however, are observed to have nonlocal effects on the profiles of rotation and current. This has stimulated interest in using magnetic islands to control plasma transport. They are also of interest as a tool to improve our understanding of microscopic plasma dynamics.

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Section: Introductionmentioning

confidence: 99%

Theory and observations of magnetic islands

2009

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“…Sources for these perturbation (error) fields include coil misalignments during installation, imperfections in coil windings, fields from bus works and leads, and the presence of ferromagnetic materials in the vicinity [1,2]. Recently, the mechanism of magnetic surface breakup and island formation by magnetic field irregularities has received considerable attention, and significant advances have been reported by many authors [3][4][5][6][7][8][9][10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

“…( 2) is basically accurate in the approximation of an infiniteaspect-ratio toroidal magnetic field configuration, in which magnetic flux surfaces are assumed to be concentric circles and hence the toroidal coupling of the Fourier components arising from non-circularity and shift of the flux surfaces is entirely neglected. In one way or another, this type of assumption is usually made in carrying out analytical studies of the effect of field perturbations on the magnetic flux surfaces in toroidal stellarator configurations [3][4][5][6][7][8][9][10][11][12]. If, however, a perturbation B mn given by Eq.…”

Section: Introductionmentioning

confidence: 99%

Magnetic island widths due to field perturbations in toroidal stellarators

1990

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An explicit formulation is presented to determine widths of magnetic island separatrices generated by magnetic field perturbations in a general toroidal stellarator geometry. The method, which is based on a representation of three-dimensional flux surfaces by double Fourier series, allows rapid and accurate calculation of the island widths in real vacuum field configurations, without the need to follow field lines through numerical integration of the field line equations. The procedure does not involve any simplifying approximations and can be used for fields with multiple small perturbations. Numerical results of the island width obtained in the flux co-ordinate representation for the Advanced Toroidal Facility agree closely with those determined from Poincare' puncture points obtained by following field lines. The effects of resonance coupling are analysed.

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“…The width of a magnetic island obtained in the SPM case can be estimated by the theoretical method developed by Matsuda and Yoshikawa to deal with general error fields [32]. We assume a cylindrical geometry (E = 0), but allow the existence of an arbitrary number p of EML rings.…”

Section: Magnetic Island Widthsmentioning

confidence: 99%

“…Furthermore, one can evaluate the island width &,,, (in tokamak coordinates) by integration of equation (33) over a complete turn of the phase N. Using (37) we obtain [32] In order to apply the above equation, it is necessary to know the appropriate Fourier coefficient of the radial error field from its double trigonometric series If the rings are assembled with an angular displacement of 2n/p around the torus, B)." is symmetric by the change q--+ -(%, so that there is only one non-vanishing Fourier coefficient in (40),…”

Section: Magnetic Island Widthsmentioning

confidence: 99%

Magnetic field line mappings for a tokamak with ergodic limiters

Caldas

Pereira

Ullmann

et al. 1996

Chaos, Solitons & Fractals

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Abstract-An ergodic magnetic limiter is a device whose main effect in a tokamak is to create a cold boundary layer of chaotic magnetic field lines. In order to study its effect we have used two approaches. The first is a description of magnetic island formation through an analytical method to describe its dimensions, results being in accordance with numerical Poincare maps for magnetic field lines. The second is a model which simulates the ergodic limiter action as a sequence of impulsive perturbations, enabling the derivation of analytical formulae for the Poincare maps.

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Magnetic Island Formation Due to Error Field in the JFT-2 Tokamak

Cited by 17 publications

References 1 publication

Theory and observations of magnetic islands

Theory and observations of magnetic islands

Magnetic island widths due to field perturbations in toroidal stellarators

Magnetic field line mappings for a tokamak with ergodic limiters

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