DIII-D RESEARCH OPPORTUNITIES FORUM FOR THE 2018 EXPERIMENTAL CAMPAIGN
You are not logged in. Click here to log in for more options. 2017 ROF Ideas: Click here for ROF2017 submissions |
| ID | Title | Research Area | Name | Affiliation |
Time Req'ed |
ITPA Joint Exp |
ITER IO Urgent Research Task |
| 365 | High opacity SOL effect on pedestal | Core-Edge Integration Task Force | Mordijck | The college of William and Mary | No | Yes | Yes |
| 367 | ELM studies close to LH boundary | PE - Pedestal/SOL Physics and Pedestal Optimization | Knolker | GA | Yes | Yes | No |
| 377 | ITPA Joint Experiment on gamma-ray measurements of runaway electrons | D&C - Disruption Mitigation Physics | Lvovskiy | GA | No | Yes | No |
| 415 | n=2 Locking Threshold Scaling for ITER | D&C - 3D and Stability Physics | Logan | Columbia U | No | Yes | No |
| 422 | Low Torque n=1 Locking Threshold Scaling with Rotation | D&C - 3D and Stability Physics | Park | PPPL | Yes | Yes | Yes |
| 426 | Extend robust ELM suppression to the Q=10 ITER baseline scenario. | Thrust 1 - ITER Q=10 (Inductive Scenarios) | Nazikian | GA | Yes | Yes | No |
| 452 | ITER Baseline Scenario at Zero and Negative Rotation | Thrust 1 - ITER Q=10 (Inductive Scenarios) | Luce | ITER Organization | No | Yes | No |
| 471 | Parametric Study of Mode Stability, Frequency, and Wave Number Dependence in Mixed Species Plasmas | BPP - Energetic Particle Physics | Tang | Oak Ridge Associated Universities | Yes | Yes | No |
| 493 | I-mode identity experiment on DIII-D and ASDEX Upgrade: access, performance and transport | PE - Pedestal/SOL Physics and Pedestal Optimization | Happel | Max-Planck-Institut f�¼r Plasmaphysik | Yes | Yes | No |
| 494 | I-mode identity experiment on DIII-D and ASDEX Upgrade: access, performance and transport | PE - Pedestal/SOL Physics and Pedestal Optimization | Happel | Max-Planck-Institut f�¼r Plasmaphysik | Yes | Yes | No |
| 513 | Develop Safe Rampdown for Plasmas with High Radiative Fraction | D&C - Plasma Control | Luce | ITER Organization | No | Yes | No |
| 516 | Effect of differing edge relaxation mechanisms on global impurity confinement times | Core-Edge Integration Task Force | Hughes | Massachusetts Institute of Technology | No | Yes | No |
| 521 | Reduce AE induced EP transport in high q-min steady state scenarios with AE control tools | D&C - Steady State Scenarios | Collins | ORNL | Yes | Yes | No |
| 533 | Reduce AE induced EP transport in high q-min steady state scenarios with AE control tools | BPP - Energetic Particle Physics | Collins | ORNL | Yes | Yes | No |
| 574 | Compare DN/SN vertical and shape controllability | Core-Edge Integration Task Force | Humphreys | GA | No | Yes | No |
| 600 | BAE/BAAE validation | BPP - Energetic Particle Physics | Heidbrink | UC, Irvine | No | Yes | No |
| 610 | Power loading at toroidal PFC gaps | AMV - Material Migration and Mitigation | Rudakov | UCSD | No | Yes | Yes |
| 611 | Radiative divertor solutions in the ITER baseline scenario | Thrust 1 - ITER Q=10 (Inductive Scenarios) | Luce | ITER Organization | No | Yes | No |
| 626 | RMP ELM suppression in the IBS with radiating divertor by Ar injection | Thrust 1 - ITER Q=10 (Inductive Scenarios) | Turco | Columbia U | Yes | Yes | No |
| 654 | Fast-ion and AE control via externally applied 3D fields | BPP - Energetic Particle Physics | Garcia Munoz | U of Seville | No | Yes | No |
| 677 | Effect of RMP application on the dissipative divertor regime | Thrust 2 - Divertor Development | Schmitz | UW Madison | No | Yes | Yes |