English

A coherent structure transport model for scrape-off layer turbulence

Plasma Physics 2026-02-26 v2

Abstract

Understanding the locality of high-temperature plasma energy deposition on material surfaces in fusion reactors is critical for design. Here, we utilize the Gyrokinetic ElectroMagnetic turbulence including X-points (GEMX) simulation, together with SOLPS-ITER solutions for the background equilibrium electric field including drifts, to model the heat flux at the divertor plate and characterize the heat load width using realistic X-point geometry. We use a theory-based blobby transport model called the "Coherent Structure Transport" (CST) model to include the effect of plasma transport in the edge scrape-off layer. The CST model is extremely fast and can be used to quickly analyze any SOLPS-ITER solution. SOLPS-ITER provides the steady state, or equilibrium on which we superimpose blobby turbulence characterized by blob size, amplitude and frequency. We obtain the 1/Bp1/B_p scaling of the heat load exponential decay width λq\lambda_q, in agreement with the Eich empirical scaling and with the Goldston heuristic theory. When including blobby turbulence in combination with the SOLPS-ITER electric field, we find a secondary peak in the heat flux radial profile, outwardly displaced from the strike point radius, with a relative amplitude that increases with the initial blob density. We describe the CST model in detail and provide initial investigations of the scaling of λq\lambda_q and the secondary heat flux peak with blob size and amplitude.

Keywords

Cite

@article{arxiv.2602.21151,
  title  = {A coherent structure transport model for scrape-off layer turbulence},
  author = {Zhichen Feng and James Myra and Junyi Cheng and Calder Haubrich and Yang Chen and Xinxing Ma and Darin R. Ernst and Scott Parker},
  journal= {arXiv preprint arXiv:2602.21151},
  year   = {2026}
}
R2 v1 2026-07-01T10:50:26.614Z