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Validation of gyrokinetic modelling of light impurity transport including rotation in ASDEX Upgrade

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arxiv 1211.7312 v2 pith:M2DINJPJ submitted 2012-11-30 physics.plasm-ph

Validation of gyrokinetic modelling of light impurity transport including rotation in ASDEX Upgrade

classification physics.plasm-ph
keywords boronrotationimpurityprofilesapproachasdexgradientgradients
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Upgraded spectroscopic hardware and an improved impurity concentration calculation allow accurate determination of boron density in the ASDEX Upgrade tokamak. A database of boron measurements is compared to quasilinear and nonlinear gyrokinetic simulations including Coriolis and centrifugal rotational effects over a range of H-mode plasma regimes. The peaking of the measured boron profiles shows a strong anti-correlation with the plasma rotation gradient, via a relationship explained and reproduced by the theory. It is demonstrated that the rotodiffusive impurity flux driven by the rotation gradient is required for the modelling to reproduce the hollow boron profiles at higher rotation gradients. The nonlinear simulations validate the quasilinear approach, and, with the addition of perpendicular flow shear, demonstrate that each symmetry breaking mechanism that causes momentum transport also couples to rotodiffusion. At lower rotation gradients, the parallel compressive convection is required to match the most peaked boron profiles. The sensitivities of both datasets to possible errors is investigated, and quantitative agreement is found within the estimated uncertainties. The approach used can be considered a template for mitigating uncertainty in quantitative comparisons between simulation and experiment.

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