2010
DOI: 10.1063/1.3467502
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The nonlinear coupling between gyroradius scale turbulence and mesoscale magnetic islands in fusion plasmas

Abstract: The interaction between small scale turbulence (of the order of the ion Larmor radius) and meso-scale magnetic islands is investigated within the gyrokinetic framework. Turbulence, driven by background temperature and density gradients, over nonlinear mode coupling, pumps energy into long wavelength modes, and can result in an electrostatic vortex mode that coincides with the magnetic island. The strength of the vortex is strongly enhanced by the modified plasma flow response connected with the change in topol… Show more

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Cited by 77 publications
(105 citation statements)
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“…[12], due to the use of the collisionless approximation, describe the limit D → ∞. It can also be seen that at sufficiently small diffusion coefficient the trapped particle distribution becomes flat.…”
Section: Resultsmentioning
confidence: 96%
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“…[12], due to the use of the collisionless approximation, describe the limit D → ∞. It can also be seen that at sufficiently small diffusion coefficient the trapped particle distribution becomes flat.…”
Section: Resultsmentioning
confidence: 96%
“…Previous work using gyro-kinetic simulations has found that the temperature gradients through the island O-points are further modified by the action of drift-wave turbulence around and within the island [11,12,14,13]. These calculations, however, did not allow the direct calculation of the bootstrap current to determine its full effect.…”
Section: Introductionmentioning
confidence: 99%
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“…These GKW simulations include electromagnetic effects on the small-scale fluctuations, but neglect the presence of the magnetic island. This implies that the estimates given above are to be understood as an upper limit on D, since inside an island the kinetic profiles are flattened and the drive for the turbulence is strongly reduced [43,44] (although this might be only partly the case for islands of about the marginal island size). These low values of the diffusion coefficient, in combination with the beam broadening discussed in the next subsection, suggest a relatively small role (again at the 10%-level) of transport effects on the determination of the CD profiles for the UL in ITER.…”
Section: Radial Transport Of Fast Electronsmentioning
confidence: 99%