Observation of D2 molecule line emission after massive D2 injection into runaway electron plateaus in DIII-D

Abstract: Molecular deuterium line emission is observed in both the visible and ultraviolet (UV) wavelength ranges after massive (> 100 Torr-L) injection of D2 gas into post-disruption runaway electron (RE) dominated plasmas in the DIII-D tokamak. D2 UV line emission is found to be the dominant source of radiated power, surpassing D Lyα. Interpretive modeling with a collisional-radiative model (CRM) indicates that D2 radiation surpasses D radiation because Lyα is strongly trapped, while D2 UV lines are mostly unt… Show more

“…To approximate the toroidal (noncylindrical) vacuum chamber, where the RE current channel leans against the CP but a significant volume of the vacuum chamber remains free of REs for neutrals to populate, the REs are assumed to limit at a minor radius r/a min = 1, but the thermal plasma and neutrals are assumed to recycle at a larger radius, halfway between a min and the radius required to give the correct vacuum chamber volume. This model is found to give best agreement with recycled neutral line brightnesses [31]; which corresponds to r/a min = 1.5 here. Plasma chemistry (including thermal and RE ionization, thermal recombination, charge exchange, and dissociation) is included between all dominant ion species.…”

Runaway electron plateau current profile reconstruction from synchrotron imaging and Ar-II line polarization angle measurements in DIII-D

“…To approximate the toroidal (noncylindrical) vacuum chamber, where the RE current channel leans against the CP but a significant volume of the vacuum chamber remains free of REs for neutrals to populate, the REs are assumed to limit at a minor radius r/a min = 1, but the thermal plasma and neutrals are assumed to recycle at a larger radius, halfway between a min and the radius required to give the correct vacuum chamber volume. This model is found to give best agreement with recycled neutral line brightnesses [31]; which corresponds to r/a min = 1.5 here. Plasma chemistry (including thermal and RE ionization, thermal recombination, charge exchange, and dissociation) is included between all dominant ion species.…”

Runaway electron plateau current profile reconstruction from synchrotron imaging and Ar-II line polarization angle measurements in DIII-D

Utilization of D2 molecular band emission for electron density measurement