Nuclear Fusion (Jan 2024)

Transport Barriers in magnetized plasmas- general theory with dynamical constraints

  • M. Kotschenreuther,
  • X. Liu,
  • S.M. Mahajan,
  • D.R. Hatch,
  • G. Merlo

DOI
https://doi.org/10.1088/1741-4326/ad4c75
Journal volume & issue
Vol. 64, no. 7
p. 076033

Abstract

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A fundamental dynamical constraint—that fluctuation induced charge-weighted particle flux must vanish- can prevent instabilities from accessing the free energy in the strong gradients characteristic of Transport Barriers (TBs). Density gradients, when large enough, lead to a violation of the constraint and hence preclude unstable modes and turbulent transport. This mechanism, then, broadens the class of configurations (in magnetized plasmas) where these high confinement states can be formed and sustained. The need for velocity shear, the conventional agent for TB formation, is obviated. The most important ramifications of the constraint is to permit a charting out of the domains conducive to TB formation and hence to optimally confined fusion worthy states; the detailed investigation is conducted through new analytic methods and extensive gyrokinetic simulations.

Keywords