The poloidal distribution of type-III edge localized modes in the Mega-Ampère spherical tokamak (MAST)

Antar, G.

doi:10.1063/1.2198210

Cited by 4 publications

(3 citation statements)

References 29 publications

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“…Although the basic mechanism for the instability of the edge layer has not been fully understood up to now, it is probable that the radial electric field behind the plate is inducing the turbulence. This situation is very similar to the turbulent regimes recorded in the scrape-off-layer (SOL) of magnetically confined thermonuclear plasmas [16][17][18].…”

Section: -P1supporting

confidence: 74%

High-frequency harmonic generation in a toroidal magnetized laboratory plasma and detection of plasma turbulence

Ajendouz¹,

Pierre²,

Boussouis³

et al. 2007

Europhys. Lett.

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We show for the first time experimentally that plasma turbulence can be detected easily when an electromagnetic extraordinary wave launched from the inner side of a toroidal magnetized plasma reaches a turbulent resonance layer. The second-harmonic wave generated inside the resonance layer is detected from outside the magnetized plasma and its power spectrum is analyzed. This new technique could be developed for distant probing of plasma turbulence.

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Section: -P1supporting

confidence: 74%

High-frequency harmonic generation in a toroidal magnetized laboratory plasma and detection of plasma turbulence

Ajendouz¹,

Pierre²,

Boussouis³

et al. 2007

Europhys. Lett.

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“…A significant number of experimental investigations were dedicated to characterizing ELMs properties and the underlying radial particle and energy transport [4][5][6][7]. Visible and infrared imaging has been used to study ELMs [7][8][9][10] where filamentary structures were observed and their properties were studied in detail.…”

mentioning

confidence: 99%

On the onset of type I edge localized modes

Antar¹,

Krasheninnikov²,

Snyder³

et al. 2009

Nucl. Fusion

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The onset of type I edge localized modes (ELMs) is investigated on the DIII-D tokamak. A fast imaging camera is used with an integration time of 1 µs and a time between frames about 15 µs continuously recording for a period of 1.3 s. It is observed that the type I ELMs onset starts with a precursor oscillation at the midplane caused by a toroidally rotating localized structure with a spatial scale increasing with time. This is confirmed by the toroidal set of magnetic probes and continues until the filamentary structure(s) strongly interacts with the first wall at the outer mid-plane. This triggers a strong plasma-wall interaction that later spreads to affect the whole scrape-off layer. The properties of the observed localized structure(s) are in good agreement with the ballooning finger structure occurring in the early non-linear phase of the peeling-ballooning instability.

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“…The reason being the SOL is the region where the plasma is in direct contact with the first wall. Plasma in the SOL is mainly caused by turbulence radial transport in L-mode discharges and during ELMs in H-mode discharges [1,2]. We have dedicated several studies to unviel the different facets of turbulence properties in the SOL.…”

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confidence: 99%

The origin of convective structures in the scrape-off layer of linear magnetic fusion devices investigated by fast imaging

Antar

Tynan

2007

Physics of Plasmas

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The understanding and characterization of turbulence in the scrape-off layer (SOL) of magnetically confined plasmas is important and may actually be crucial for ITER. The reason being the SOL is the region where the plasma is in direct contact with the first wall. Plasma in the SOL is mainly caused by turbulence radial transport in L-mode discharges and during ELMs in H-mode discharges [1,2]. We have dedicated several studies to unviel the different facets of turbulence properties in the SOL. In Ref. [3,4] it was shown that intermittent events are not caused by self-organization of turbulence in the SOL but rather by non-local structures that have large scales and large radial velocities. In order to be precise we called these events avaloids.

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The poloidal distribution of type-III edge localized modes in the Mega-Ampère spherical tokamak (MAST)

Cited by 4 publications

References 29 publications

High-frequency harmonic generation in a toroidal magnetized laboratory plasma and detection of plasma turbulence

High-frequency harmonic generation in a toroidal magnetized laboratory plasma and detection of plasma turbulence

On the onset of type I edge localized modes

The origin of convective structures in the scrape-off layer of linear magnetic fusion devices investigated by fast imaging

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