2020
DOI: 10.1088/1361-6587/abbf85
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Review: Turbulence dynamics during the pedestal evolution between edge localized modes in magnetic fusion devices

Abstract: Fusion performance has been shown to be related to the H-mode pedestal structure. The pedestal is associated with steep gradients that are the source of free energy for microinstabilities. A variety of instabilities have been shown to co-exist in the pedestal. This paper reviews the experimentally observed signatures of instabilities during the pedestal parameters’ evolutions, with a focus on turbulence observations, made in between edge localized modes (ELMs), in multiple tokamaks. ELMs are cyclic events asso… Show more

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Cited by 16 publications
(21 citation statements)
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“…The success of the perturbative approach applied here also implies a possibility for the expansion of dynamic turbulence identification to other unexplained tokamak regimes. Similar instability markers have been reported on a wide variety of machines and scenarios 6,32 , but the underlying physics remains largely undetermined. The analysis presented here offers a new mechanism to uncover explanations for these observations, potentially enabling a comprehensive perturbative study of experimental transport signatures in tokamak devices.…”
Section: Discussion and Outlooksupporting
confidence: 65%
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“…The success of the perturbative approach applied here also implies a possibility for the expansion of dynamic turbulence identification to other unexplained tokamak regimes. Similar instability markers have been reported on a wide variety of machines and scenarios 6,32 , but the underlying physics remains largely undetermined. The analysis presented here offers a new mechanism to uncover explanations for these observations, potentially enabling a comprehensive perturbative study of experimental transport signatures in tokamak devices.…”
Section: Discussion and Outlooksupporting
confidence: 65%
“…Remarkably, this profile-based calculation exactly matches the mode chirping behavior seen in fast magnetic fluctuation measurements, as shown in figure 2(c). Through this theoretically-motivated analysis, we thus explain the distinctive up-chirping behavior observed in magnetic spectrograms 6,25,[30][31][32] as follows: The recovery of density and temperature gradients after an ELM 32 introduces periodic growth into the ω e * profile described by equation 1. MTMs, being locked at a particular rational q surface, will simultaneously experience a local increase in ∇T e and ω e * .…”
Section: Time-dependent Mtm Identificationmentioning
confidence: 99%
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“…Recently, innovative experimental diagnostics of internal magnetic fluctuations [17] have further established MTM as a common pedestal fluctuation in DIII-D as discussed in [18,19]. Related gyrokinetic modeling will be reported in [20].…”
Section: Introductionmentioning
confidence: 95%
“…ELMs set a maximum limit on the normalized pressure gradient (α) and average toroidal current density ( j tor ) in the pedestal region, but they do not by themselves fully constrain the achievable pedestal pressure or the resulting plasma performance [4]. Instead, the recovery of the pedestal structure between ELMs is additionally influenced by so-called microinstabilities, which regulate local profile gradients by inducing additional transport across the ETB [5]. In conjunction with the global peeling-ballooning (PB) constraint, models describing sub-critical pedestal instabilities can be used to predict the pedestal height and width, demonstrating the critical role that these microinstabilities play in determining plasma performance [6,7].…”
Section: Introductionmentioning
confidence: 99%