Larry Baylor Corporate Fellow, Interim Section Head, Fusion Nuclear Science, Technology, and Engineering, and Group Leader Contact BAYLORLR@ORNL.GOV All Publications Disruption Mitigation Technology Concepts and Implications for ITER... Influence of the low order rational q surfaces on the pellet deposition profile... Principal Physics Developments Evaluated in the ITER Design Review... Pellet Fueling, ELM pacing, and Disruption Mitigation Technology Development for ITER... TORE SUPRA TEAM MEMBERS 1988-2008... Development of a Twin-Screw D-2 Extruder for the ITER Pellet Injection System... Pellet Fueling, ELM pacing, and Disruption Mitigation Technology Development for ITER Pellet Fueling, ELM pacing, and Disruption Mitigation Technology Development for ITER... Massive Pellet and Rupture Disk Testing for Disruption Mitigation Applications Twin-Screw Extruder Development for the ITER Pellet Injection System... Disruption Mitigation Technology Concepts and Implications for ITER... A compact Flexible Pellet Injector for the TJ-II Stellarator RMP ELM Suppression in DIII-D Plasmas with ITER Similar Shapes and Collisionalities Pellet Fueling Technology Development for Efficient Fueling of Burning Plasmas in ITER... Pellet Fueling and Control of Burning Plasmas in ITER... Pellet Dropper Devices for ELM Control on DIII-D Experimental Study of Pellet Delivery to the ITER Inner Wall through a Curved Guide Tube at Steady-State Pressure... Pellet Fueling Technology Development Leading to Efficient Fueling of ITER Burning Plasmas... Effect of Parallel Flows and Toroidicity on Cross-Field Transport of Pellet Ablation Matter in Tokakmak Plasmas Growth and Properties of Si-N-C-O Nanocones and Graphitic Nanofibers Synthesized Using Three-Nanometer Diameter Iron/Platinum... Growth of Multiwalled-Carbon Nanotubes using Vertically Aligned Carbon Nanofibers as Templates/Scaffolds and Improved Field-E... Comparison of Toroidal Rotation Velocities of Different Impurity Ions in the DIII-D Tokamak Experimental Study of Gas Flow Through Curved Tubes in Support of Disruption Mitigation Experiments in DIII-D Growth of verically aligned carbon nanofibers by low-pressure inductively coupled plasma-enhanced chemical vapor deposition Comparison of Fueling Efficiency from Different Fueling Locations on DIII-D... Pagination First page « First Previous page ‹‹ … Page 4 Current page 5 Page 6 Next page ›› Last page Last » Key Links Google Scholar ORCID Organizations Fusion and Fission Energy and Science Directorate Fusion Energy Division Fusion Nuclear Science, Technology, and Engineering Section Blanket and Fuel Cycle Group
News ORNL fusion scientists are working to make measurements of plasma disruption mitigation methods more accurate
