Novel intrinsic helical cores and MHD dynamo flux pumping evidence in DIII-D

Boyes, W.; Turco, F.; Hanson, J.; Navratil, G.A.; Turnbull, A.; Hyatt, A.; Luce, T.; Meyer, W.; Nelson, A.O.; Odstrcil, T.; Osborne, T.; Scotti, F.; Welander, A.; Wingen, A.

doi:10.1088/1741-4326/ad89d9

Nucl. Fusion

2024

DOI: 10.1088/1741-4326/ad89d9

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Novel intrinsic helical cores and MHD dynamo flux pumping evidence in DIII-D

W. Boyes,

F. Turco,

J. Hanson

et al.

Abstract: Evidence of a MHD dynamo brought about by intrinsic helical core structures in negative triangularity (NT) and ITER baseline scenario (IBS) plasmas demonstrates paths to operating tokamaks without seeds for deleterious global MHD modes. A stationary sawtooth- and edge localized mode-free state maintains high performance for long durations in a strong NT shape in the DIII-D tokamak. Disparity between minimum safety factor values predicted by magnetic flux diffusion theory and derived from experiment suggests an… Show more

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Radiation induced non-linear oscillations in ITER baseline scenario plasmas in DIII-D

Turco,

Luce,

Osborne

et al. 2024

Nucl. Fusion

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This work shows how the radiation brought about by metals or metal-equivalent radiators such as Kr and Xe produces non-linear dynamics on otherwise stationary β N flattops of DIII-D ITER Baseline Scenario demonstration discharges. The Kr and Xe gases are used to reproduce the radiative loss rates of W in present machines that operate at core temperatures much lower than the expected ITER temperature. Experiments on DIII-D with injection of Kr and Xe, as well as with sources of intrinsic metals reach the range of radiated fraction values expected in the ITER core and experience slow oscillations in temperature and radiated power. In many cases of high radiated fraction, the core temperature decreases enough for the safety factor profile to rise above the 1/1 rational surface, naturally eliminating sawteeth and occasionally producing a persistent helical core. The oscillations can be reproduced by a modified Lotka–Volterra system for temperature and radiated fraction if diffusion and noise are included, which indicates that the interplay between temperature and radiation can be the main cause of the cyclic nature of the system. A new physics based model which includes equations for temperature, density and input power can also reproduce the oscillations observed in the experiments. The present results suggest that the non-linearity of the system can be increased by the inclusion of the inherently non-linear alpha heating term, which is proportional to ∼n e 2 T i 2, and obtains oscillations in the model when added to an otherwise more stationary system.

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Radiation induced non-linear oscillations in ITER baseline scenario plasmas in DIII-D

Turco,

Luce,

Osborne

et al. 2024

Nucl. Fusion

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Novel intrinsic helical cores and MHD dynamo flux pumping evidence in DIII-D

Cited by 1 publication

References 36 publications

Radiation induced non-linear oscillations in ITER baseline scenario plasmas in DIII-D

Radiation induced non-linear oscillations in ITER baseline scenario plasmas in DIII-D

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