Gyrokinetic simulations of the effects of magnetic islands on microturbulence in KSTAR

Xishuo Wei; Javier H. Nicolau; Gyungjin Choi; Zhihong Lin; Seong Moo Yang; Sang Kyeun Kim; Woo Chang Lee; Chen Zhao; Tyler Cote; Jong Kyu Park; Dmitri Orlov

doi:10.1088/1741-4326/ada049

Gyrokinetic simulations of the effects of magnetic islands on microturbulence in KSTAR

Xishuo Wei
, Javier H. Nicolau
, Gyungjin Choi
, Zhihong Lin
, Seong Moo Yang
, Sang Kyeun Kim
, Woo Chang Lee
, Chen Zhao
, Tyler Cote
, Jong Kyu Park
, Dmitri Orlov

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

2 Scopus citations

Abstract

Gyrokinetic simulations are utilized to study effects of magnetic islands (MIs) on the ion temperature gradient (ITG) turbulence in the KSTAR tokamak with resonant magnetic perturbations. Simulations show that the transport is controlled by the nonlinear interactions between the ITG turbulence and self-generated vortex flows and zonal flows, leading to an anisotropic structure of fluctuation and transport on the poloidal plane and in the toroidal direction. MIs greatly enhance turbulent transport of both particle and heat. The turbulent transport exhibits variations in the toroidal direction, with transport through the resonant layer near the island X-point being enhanced when the X-point is located at the outer mid-plane. A quantitative agreement is shown between simulations and KSTAR experiments in terms of time frequency and perpendicular wavevector spectrum.

Original language	English (US)
Article number	026026
Journal	Nuclear Fusion
Volume	65
Issue number	2
DOIs	https://doi.org/10.1088/1741-4326/ada049
State	Published - Feb 1 2025

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

Keywords

RMP
gyrokinetic simulation
magnetic island
turbulent transport

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10.1088/1741-4326/ada049

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title = "Gyrokinetic simulations of the effects of magnetic islands on microturbulence in KSTAR",

abstract = "Gyrokinetic simulations are utilized to study effects of magnetic islands (MIs) on the ion temperature gradient (ITG) turbulence in the KSTAR tokamak with resonant magnetic perturbations. Simulations show that the transport is controlled by the nonlinear interactions between the ITG turbulence and self-generated vortex flows and zonal flows, leading to an anisotropic structure of fluctuation and transport on the poloidal plane and in the toroidal direction. MIs greatly enhance turbulent transport of both particle and heat. The turbulent transport exhibits variations in the toroidal direction, with transport through the resonant layer near the island X-point being enhanced when the X-point is located at the outer mid-plane. A quantitative agreement is shown between simulations and KSTAR experiments in terms of time frequency and perpendicular wavevector spectrum.",

keywords = "RMP, gyrokinetic simulation, magnetic island, turbulent transport",

author = "Xishuo Wei and Nicolau, \{Javier H.\} and Gyungjin Choi and Zhihong Lin and Yang, \{Seong Moo\} and Kim, \{Sang Kyeun\} and Lee, \{Woo Chang\} and Chen Zhao and Tyler Cote and Park, \{Jong Kyu\} and Dmitri Orlov",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by IOP Publishing Ltd on behalf of the IAEA.",

year = "2025",

month = feb,

day = "1",

doi = "10.1088/1741-4326/ada049",

language = "English (US)",

volume = "65",

journal = "Nuclear Fusion",

issn = "0029-5515",

publisher = "IOP Publishing Ltd.",

number = "2",

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TY - JOUR

T1 - Gyrokinetic simulations of the effects of magnetic islands on microturbulence in KSTAR

AU - Wei, Xishuo

AU - Nicolau, Javier H.

AU - Choi, Gyungjin

AU - Lin, Zhihong

AU - Yang, Seong Moo

AU - Kim, Sang Kyeun

AU - Lee, Woo Chang

AU - Zhao, Chen

AU - Cote, Tyler

AU - Park, Jong Kyu

AU - Orlov, Dmitri

PY - 2025/2/1

Y1 - 2025/2/1

N2 - Gyrokinetic simulations are utilized to study effects of magnetic islands (MIs) on the ion temperature gradient (ITG) turbulence in the KSTAR tokamak with resonant magnetic perturbations. Simulations show that the transport is controlled by the nonlinear interactions between the ITG turbulence and self-generated vortex flows and zonal flows, leading to an anisotropic structure of fluctuation and transport on the poloidal plane and in the toroidal direction. MIs greatly enhance turbulent transport of both particle and heat. The turbulent transport exhibits variations in the toroidal direction, with transport through the resonant layer near the island X-point being enhanced when the X-point is located at the outer mid-plane. A quantitative agreement is shown between simulations and KSTAR experiments in terms of time frequency and perpendicular wavevector spectrum.

AB - Gyrokinetic simulations are utilized to study effects of magnetic islands (MIs) on the ion temperature gradient (ITG) turbulence in the KSTAR tokamak with resonant magnetic perturbations. Simulations show that the transport is controlled by the nonlinear interactions between the ITG turbulence and self-generated vortex flows and zonal flows, leading to an anisotropic structure of fluctuation and transport on the poloidal plane and in the toroidal direction. MIs greatly enhance turbulent transport of both particle and heat. The turbulent transport exhibits variations in the toroidal direction, with transport through the resonant layer near the island X-point being enhanced when the X-point is located at the outer mid-plane. A quantitative agreement is shown between simulations and KSTAR experiments in terms of time frequency and perpendicular wavevector spectrum.

KW - RMP

KW - gyrokinetic simulation

KW - magnetic island

KW - turbulent transport

UR - https://www.scopus.com/pages/publications/85214297373

UR - https://www.scopus.com/pages/publications/85214297373#tab=citedBy

U2 - 10.1088/1741-4326/ada049

DO - 10.1088/1741-4326/ada049

M3 - Article

AN - SCOPUS:85214297373

SN - 0029-5515

VL - 65

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 2

M1 - 026026

ER -

Gyrokinetic simulations of the effects of magnetic islands on microturbulence in KSTAR

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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