Toroidal and slab ETG instability dominance in the linear spectrum of JET-ILW pedestals

Parisi, Jason F.; Parra, Felix, I; Roach, Colin M.; Giroud, Carine; Dorland, William; Hatch, David R.; Barnes, Michael; Hillesheim, Jon C.; Aiba, Nobuyuki; Ball, Justin; Ivanov, Plamen G.

doi:10.1088/1741-4326/abb891

research article

Toroidal and slab ETG instability dominance in the linear spectrum of JET-ILW pedestals

Parisi, Jason F.

•

Parra, Felix, I

•

Roach, Colin M.

December 1, 2020

Nuclear Fusion

Local linear gyrokinetic simulations show that electron temperature gradient (ETG) instabilities are the fastest growing modes for ky rho i greater than or similar to 0.1

Type

research article

DOI

10.1088/1741-4326/abb891

Web of Science ID

WOS:000584927100001

Author(s)

Parisi, Jason F.

Parra, Felix, I

Roach, Colin M.

Giroud, Carine

Dorland, William

Hatch, David R.

Barnes, Michael

Hillesheim, Jon C.

Aiba, Nobuyuki

Ball, Justin

Date Issued

2020-12-01

Publisher

IOP Publishing Ltd

Published in

Nuclear Fusion

Volume

60

Issue

12

Article Number

126045

Subjects

Physics, Fluids & Plasmas

•

Physics

•

pedestal

•

tokamak

•

etg

•

gyrokinetics

•

itg

•

finite aspect ratio

•

gradient

•

confinement

•

transport

•

plasma

•

mode

•

driven

•

discharges

•

transition

Editorial or Peer reviewed

REVIEWED

Written at

EPFL

EPFL units

SPC

Available on Infoscience

November 24, 2020

Use this identifier to reference this record

https://infoscience.epfl.ch/handle/20.500.14299/173593