Quasilinear carbon transport in an impurity hole plasma in LHD

Mikkelsen, D. R.; Tanaka, Kaoru; Nunami, M.; Watanabe, T.‐H.; Sugama, H.; Yoshinuma, M.; Ida, K.; Suzuki, Y.; Goto, M.; Morita, S.; Wieland, B.; Yamada, I.; Yasuhara, Ryo; Tokuzawa, T.; Akiyama, Tsuyoshi; Pablant, N.

doi:10.1063/1.4890973

Cited by 37 publications

(57 citation statements)

References 47 publications

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“…Another possibility is turbulence being reduced by the increased effective charge Z ef f due to B injection, also referred to as plasma dilution. Indeed, an increase Z ef f has also been reported to have a stabilizing effect on ITG turbulence [22,23,24]. More likely, the combination of the two above mentioned effects might occur in our case, similarly to what reported in Ref.…”

Section: Resultssupporting

confidence: 90%

Observation of a novel reduced-turbulence regime with boron powder injection in a stellarator

Nespoli¹,

Masuzaki²,

Tanaka³

et al. 2021

Preprint

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We report the first observation of a novel confinement regime in a stellarator plasma, characterized by increased confinement and reduced turbulent fluctuations. The transition to this new regime is driven by the injection of sub-millimetric boron powder grains into the plasma. With the line averaged electron density being kept constant, substantial increase of stored energy, electron and ion temperature have been observed. At the same time, the amplitude of the plasma turbulent fluctuations is halved. While lower frequency fluctuations are damped, higher frequency modes in the range 100 ≤ f [kHz] ≤ 200 are excited. The access to this regime has been observed for different heating schemes, namely with both electron and ion cyclotron resonant radio frequency, and neutral beams, for both directions of the magnetic field, and for both hydrogen and deuterium plasmas.

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Section: Resultssupporting

confidence: 90%

Observation of a novel reduced-turbulence regime with boron powder injection in a stellarator

Nespoli¹,

Masuzaki²,

Tanaka³

et al. 2021

Preprint

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“…The input parameters are the ion and impurity rotation frequencies ω i , ω z ≡ ω, the friction coefficient ν = R 0 ν * zi (see equation (8)) and the magnetic geometry. Note that equations (C.1) and (C.2) depend only on the relative density variation n z / n z and not on the absolute value of the impurity density.…”

Section: Appendix C Model Equations For Impurity Density Variations mentioning

confidence: 99%

“…Recent theory and modeling efforts have investigated both turbulent [8] and extended neoclassical mechanisms [9] in an attempt to identify the physics underlying these anomalies. However, the observation of outward convection of impurities in the 'impurity hole' regime of the Large Helical Device has not found an explanation in these efforts so far.…”

Section: Introductionmentioning

confidence: 99%

Parallel impurity dynamics in the TJ-II stellarator

Alonso

Velasco

Calvo

et al. 2016

Plasma Phys. Control. Fusion

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Abstract. We review in a tutorial fashion some of the causes of impurity density variations along field lines and radial impurity transport in the moment approach framework. An explicit and compact form of the parallel inertia force valid for arbitrary toroidal geometry and magnetic coordinates is derived and shown to be non-negligible for typical TJ-II plasma conditions. In the second part of the article, we apply the fluid model including main ion-impurity friction and inertia to observations of asymmetric emissivity patterns in neutral beam heated plasmas of the TJ-II stellarator. The model is able to explain qualitatively several features of the radiation asymmetry, both in stationary and transient conditions, based on the calculated in-surface variations of the impurity density.

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“…There is a large body of theoretical research on the neoclassical transport of impurities in stellarators (Helander et al 2017;Velasco et al 2017;Calvo et al 2018), which we shall not describe in detail. Far less has been done to study turbulent particle transport -either of impurities or of the bulk ions and electrons -and most of these studies rely on quasi-linear transport theory (Mikkelsen et al 2014). Recently, however, there have been direct numerical simulations of turbulence in impure stellarator plasmas using gyrokinetic codes (Nunami et al 2020).…”

Section: Introductionmentioning

confidence: 99%

Effects of collisions on impurity transport driven by electrostatic modes

Buller

Helander

2020

J. Plasma Phys.

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The turbulence-induced quasi-linear particle flux of a highly charged, collisional impurity species is calculated from the electrostatic gyrokinetic equation including collisions with the bulk ions and the impurities themselves. The equation is solved by an expansion in powers of the impurity charge number $Z$ . In this formalism, the collision operator only affects the impurity flux through the dynamics of the impurities in the direction parallel to the magnetic field. At reactor-relevant collisionality, the parallel dynamics is dominated by the parallel electric field, and collisions have a minor effect on the turbulent particle flux of highly charged, collisional impurities.

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Quasilinear carbon transport in an impurity hole plasma in LHD

Cited by 37 publications

References 47 publications

Observation of a novel reduced-turbulence regime with boron powder injection in a stellarator

Observation of a novel reduced-turbulence regime with boron powder injection in a stellarator

Parallel impurity dynamics in the TJ-II stellarator

Effects of collisions on impurity transport driven by electrostatic modes

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