Internal Magnetic Fluctuations via Cross-Polarization Scattering System during enhanced D_α high confinement mode on DIII-D Tokamak

Cross-polarization scattering (CPS) enables localized measurements of magnetic fluctuations in fusion plasmas via orthogonal polarization scattering of electromagnetic radiation. This work presents results of internal magnetic fluctuation measurements during enhanced Dα high confinement mode (EDA H-mode) on the DIII-D tokamak.

Near the plasma edge, quasi-coherent density modes (QCMs) in both electron and ion diamagnetic directions (in lab frame, measured by DBS) were observed, with frequencies ~1100 kHz and -300 kHz, and poloidal wavenumber k_θ ≈ 13 cm⁻¹. In contrast, magnetic fluctuation measured by CPS shows only a single QCM mode in the electron diamagnetic direction, with frequency ~ 600 kHz and k_θ ≈ 6.5 cm⁻¹. These observations suggest the electron diamagnetic mode is electromagnetic (e.g., MTM, KBM, interchange mode), while the ion diamagnetic mode is electrostatic (possibly drift wave, ITG, etc.)^1,2.

Perpendicular velocity fluctuation at ~40 kHz is detected by both DBS and CPS systems, and via fast magnetic coils and interferometer, indicating consistent results. 3D ray-tracing code GENRAY is used for systematic analysis of optimized measurements condition for DBS and CPS.