Drift kinetic theory of neoclassical tearing modes in a low collisionality tokamak plasma: magnetic island threshold physics

Dudkovskaia, Alexandra V; Connor, J. W.; Dickinson, David; Hill, P.; Imada, Koki; Leigh, Sidney; Wilson, H. R.

doi:10.1088/1361-6587/abea2e

Cited by 15 publications

(108 citation statements)

References 39 publications

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“…Their balance determines the threshold island width that is found numerically to be a few ion banana widths for a chosen equilibrium scenario, qualitatively matching data from DIII-D, ASDEX-U and JT-60U. Although the threshold scaling with the inverse aspect ratio as ε 1/2 , recovered in [19], indicates a role for trapped particles, the theory shows that the threshold mechanism originates from the drift orbits associated with passing particles. Specifically, passing particles are shown to follow 'drift islands' which are of the same shape as the magnetic island, but shifted radially relative to it by a few ρ ϑi .…”

Section: Introductionsupporting

confidence: 69%

“…In [16][17][18][19] we have developed a new self-consistent drift kinetic theory and associated drift island formalism to describe how plasma responds to the NTM magnetic perturbation. To implement this, two numerical codes have been developed: 4D DK- [18] and 3D RDK-NTM [19] (the 3D version, developed in [19], averages the distribution function over streamlines to reduce the 4D version and is valid for small, ITER-relevant collisions). They both assume a low beta large aspect ratio tokamak and consider the limit of small islands, comparable to ρ bi , to retain the effects of finite orbit widths relevant for the NTM threshold island width.…”

Section: Introductionmentioning

confidence: 99%

“…They both assume a low beta large aspect ratio tokamak and consider the limit of small islands, comparable to ρ bi , to retain the effects of finite orbit widths relevant for the NTM threshold island width. [19] considers how the parallel current density varies as the magnetic island width approaches the ion poloidal Larmor radius. For large islands of half-width w ≫ ρ ϑi , no parallel current is supported inside the magnetic island, providing a strong drive for NTMs, in agreement with the conventional theory of large magnetic islands.…”

Section: Introductionmentioning

confidence: 99%

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Drift kinetic theory of the NTM magnetic islands in a finite beta general geometry tokamak plasma

et al. 2022

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In [K Imada et al. Nucl. Fusion 59 (2019) 046016] a new 4D drift kinetic nonlinear theory, valid in the limit of a low beta, small inverse aspect ratio, circular cross section, toroidal geometry, to describe the plasma response to the neoclassical tearing mode (NTM) magnetic perturbation is derived. In [A V Dudkovskaia et al. Plasma Phys. Control. Fusion 63 (2021) 054001] this theory is reduced in a low collisionality limit, which allows a dimensionality reduction to a 3D problem to efficiently resolve the collisional dissipation layer in the vicinity of the trapped-passing boundary. [A V Dudkovskaia et al. Plasma Phys. Control. Fusion 63 (2021) 054001] adopts an improved model for the magnetic drift frequency, which reduces the threshold magnetic island half-width from $8.73 \rho_{b i}$, where $\rho_{b i}$ is the trapped ion banana orbit width, to $1.46 \rho_{b i}$, making it in a closer agreement with experimental observations for the large aspect ratio tokamak equilibrium. In the present paper, the theory is extended to a high beta, arbitrary tokamak geometry to capture the plasma shaping effects on the NTM threshold physics with the focus on the non-zero triangularity discharges that are known to have a strong impact on the plasma MHD stability. First, it is found that the higher triangularity plasma is more prone to NTMs which is in agreement with the $2/1$ tearing mode onset relative frequency measurements in DIII-D. Second, the NTM threshold dependence on the tokamak inverse aspect ratio obtained in [A V Dudkovskaia et al. Plasma Phys. Control. Fusion 63 (2021) 054001] is refined and extended to a finite aspect ratio limit. Third, the NTM threshold dependence on poloidal beta is obtained and benchmarked against the EAST threshold island width measurements.

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Section: Introductionsupporting

confidence: 69%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Drift kinetic theory of the NTM magnetic islands in a finite beta general geometry tokamak plasma

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“…2017 a ; Dudkovskaia et al. 2021) have already been found to limit the flattening of the pressure profile expected (Fitzpatrick 1995) and observed (Snape et al. 2012) to happen in a magnetic island.…”

Section: Discussionmentioning

confidence: 88%

“…2021), the effect of finite Larmor radius effects (Dudkovskaia et al. 2021) and some instances of experimental observations of magnetic islands with non-flat pressure profile or localized heating (Choi et al. 2021).…”

Section: Introductionmentioning

confidence: 99%

Localized compressional self-heating in magnetic islands

et al. 2022

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A spontaneous heating process is found to arise in a system where a magnetic island is present due to a linearly unstable tearing mode. The parity, the relative phases and the structure of the fields determined linearly by the tearing mode cause the compression of the plasma in the direction parallel to the magnetic field to heat the plasma in the vicinity of the separatrix in the nonlinear phase. Using a six-field electromagnetic fluid model, the process is found to be present in both two-dimensional single-helicity and three-dimensional multi-helicity simulations with both symmetric and asymmetric magnetic equilibrium profiles. A noteworthy feature of the model is that the higher-order compression terms responsible for the heating process are retained in the equations. The process is believed to be linked to experimental observations of localized hot-spots on externally induced magnetic islands.

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Interaction between a magnetic island and turbulence

Choi

2021

Rev. Mod. Plasma Phys.

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Drift kinetic theory of neoclassical tearing modes in a low collisionality tokamak plasma: magnetic island threshold physics

Abstract: A new drift kinetic theory for the plasma response to the neoclassical tearing mode (NTM) magnetic perturbation is presented. Small magnetic islands of width, w ≪ a (a is the tokamak minor radius) are assumed, retaining the limit w ∼ ρ bi (ρ … Show more

Cited by 15 publications

References 39 publications

Drift kinetic theory of the NTM magnetic islands in a finite beta general geometry tokamak plasma

Drift kinetic theory of the NTM magnetic islands in a finite beta general geometry tokamak plasma

Localized compressional self-heating in magnetic islands

Interaction between a magnetic island and turbulence

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