Ezekial A Unterberg Group Leader, Power Exhaust and Particle Control Group Contact unterbergea@ornl.gov | 865.576.6390 All Publications Real-time pedestal optimization and ELM control with 3D fields and gas flows on DIII-D Development of Surface Eroding Thermocouples in Small Angle Slot Divertor in DIII-D... Enhanced helium exhaust during edge-localized mode suppression by resonant magnetic perturbations at DIII-D... Fast response, optical radiance measurements of low intensity impurity emission in WEST plasmas with staggered wavelength fil... Net versus gross erosion of silicon carbide in DIII-D divertor Localized divertor leakage measurements using isotopic tungsten sources during edge-localized mode-y H-mode discharges on DII... The Filterscope: A Technical Guide & User’s Manual... Modeling of inter- and intra-edge-localized mode tungsten erosion during DIII-D H-mode discharges DIII-D research towards establishing the scientific basis for future fusion reactors Advances in neutral tungsten ultraviolet spectroscopy for the potential benefit to gross erosion diagnosis... Retention properties in displacement damaged ultra-fine grain tungsten exposed to divertor plasma... Impact of ELM control techniques on tungsten sputtering in the DIII-D divertor and extrapolations to ITER... Surface Erosion of Plasma-Facing Materials Using an Electrothermal Plasma Source and Ion Beam Micro-Trenches... Multiple Analytical Approach to Isotopic Transport Analysis in Magnetic Fusion Devices... Erosion characterization of SiC and Ti3SiC2 on DIII-D using focused ion beam micro-trenches... Evidence of near-SOL tungsten accumulation using a far-SOL collector probe array and OEDGE modelling in the DIII-D metal ring... Atomic insight into concurrent He, D, and T sputtering and near-surface implantation of 3C-SiC crystallographic surfaces... Study of Diii-d Tungsten Erosion Processes by Using a Carbon–tungsten Mixed Material Model Study of Diii-d Tungsten Erosion Processes by Using a Carbon–tungsten Mixed Material Model Study of DIII-D tungsten erosion processes by using a carbon–tungsten mixed material model Study of Diii-d Tungsten Erosion Processes by Using a Carbon–tungsten Mixed Material Model Study of DIII-D tungsten erosion processes by using a carbon–tungsten mixed material model Study of Diii-d Tungsten Erosion Processes by Using a Carbon–tungsten Mixed Material Model Study of DIII-D tungsten erosion processes by using a carbon–tungsten mixed material model Study of DIII-D tungsten erosion processes by using a carbon–tungsten mixed material model Pagination First page « First Previous page ‹‹ Page 1 Current page 2 Page 3 … Next page ›› Last page Last » Key Links ORCID Organizations Fusion and Fission Energy and Science Directorate Fusion Energy Division Burning Plasma Foundations Section Power Exhaust and Particle Control Group