ID |
Title |
Research Area |
Name |
Affiliation |
Time Req'ed |
ITPA Joint Exp |
ITER IO Urgent Research Task |
5 | Transformative Torque-less ITER similarity discharges in DIII-D with the present gyrotron set. | Control and Understand Core Stability in low Torque ITER Baseline | deGrassie | GA | No | No | No |
24 | Apply n=1,2,3 error field control to low torque IBS plasma | Control and Understand Core Stability in low Torque ITER Baseline | Paz-Soldan | Columbia U | No | No | No |
25 | Create different yet non-dimensionally similar low torque ITER baseline plasmas | Control and Understand Core Stability in low Torque ITER Baseline | Paz-Soldan | Columbia U | No | No | No |
26 | Non-resonant braking for tearing mode onset studies | Control and Understand Core Stability in low Torque ITER Baseline | Paz-Soldan | Columbia U | No | No | No |
39 | Near Axis Co-ECCD for ST Control in Low Torque IBS | Control and Understand Core Stability in low Torque ITER Baseline | La Haye | Retired from GA | Yes | Yes | No |
41 | Optimize Co-ECCD For 2/1 NTM Preemption in the Low Torque ITER Baseline | Control and Understand Core Stability in low Torque ITER Baseline | La Haye | Retired from GA | Yes | Yes | No |
47 | Optimize Pulsed Co-ECCD "Catch & Subdue" For 2/1 NTM Stabilization in the Low Torque ITER Baseline | Control and Understand Core Stability in low Torque ITER Baseline | La Haye | Retired from GA | Yes | Yes | No |
55 | Optimize Co-ECCD for 3/2 NTM Preemption in the Low Torque ITER Baseline | Control and Understand Core Stability in low Torque ITER Baseline | La Haye | Retired from GA | Yes | Yes | No |
57 | n=1 I-Coil Applied Field for Tearing Mode Probing Using Super-Spa | Control and Understand Core Stability in low Torque ITER Baseline | La Haye | Retired from GA | Yes | Yes | No |
86 | ECCD-induced magnetic islands and impact on plasma rotation | Control and Understand Core Stability in low Torque ITER Baseline | Fil | PPPL | No | No | No |
87 | Preemptive EMTI Feedback for NTM Locking Avoidance and Recovery of H-mode edge and High Confinement | Control and Understand Core Stability in low Torque ITER Baseline | Okabayashi | PPPL | No | No | No |
88 | Pre-emptive EMTI feedback-based Multi-mode (3/2 &2/1) Coupling De-phasing and Disruption Avoidance | Control and Understand Core Stability in low Torque ITER Baseline | Okabayashi | PPPL | No | No | No |
89 | Direct identification of multi-mode plasma response for improved MHD stability control | Control and Understand Core Stability in low Torque ITER Baseline | Wang | PPPL | Yes | No | No |
100 | Understand and control n=1 and n=2 magnetic response of low-torque ITER demonstration discharges | Control and Understand Core Stability in low Torque ITER Baseline | Hanson | Columbia U | Yes | No | No |
102 | Maximize performance of the low-torque ITER demonstration discharges as a function of stability | Control and Understand Core Stability in low Torque ITER Baseline | Hanson | Columbia U | Yes | No | No |
110 | Feedback control of 2/1 locked mode phase and rotation with RMP | Control and Understand Core Stability in low Torque ITER Baseline | Choi | GA | No | No | No |
160 | ITER Baseline Scenario in a Radiating Divertor Environment with near-Zero Applied Torque | Control and Understand Core Stability in low Torque ITER Baseline | Petrie | GA | No | No | No |
161 | Finish exploring the higher q95 IBS alternative, with RMP ELM suppression | Control and Understand Core Stability in low Torque ITER Baseline | Turco | Columbia U | No | No | No |
166 | Direct measurement of core-localized MHD via toroidally separated interferometers | Control and Understand Core Stability in low Torque ITER Baseline | Davis | Massachusetts Institute of Technology | Yes | No | No |
169 | Feedback control of 2/1 locked mode phase and rotation with RMP | Control and Understand Core Stability in low Torque ITER Baseline | Choi | Columbia U | No | No | No |
281 | Develop counter-rotating analog to co-rotating ITER baseline plasma for stability study | Control and Understand Core Stability in low Torque ITER Baseline | Paz-Soldan | Columbia U | No | No | No |
283 | Develop low-torque access to QH-mode for ITER Baseline | Control and Understand Core Stability in low Torque ITER Baseline | Garofalo | GA | Yes | No | No |
284 | ECCD and ECH for IBS with real-time modulation control | Control and Understand Core Stability in low Torque ITER Baseline | Kolemen | PPPL | Yes | No | No |
285 | NTM Stabilization for IBS | Control and Understand Core Stability in low Torque ITER Baseline | Kolemen | PPPL | No | Yes | Yes |
293 | Test of pedestal current role in low torque ITER baseline plasmas | Control and Understand Core Stability in low Torque ITER Baseline | Luce | ITER Organization | No | Yes | No |
304 | Adaptive Error Field Correction | Control and Understand Core Stability in low Torque ITER Baseline | Vail | Princeton U | No | No | No |
336 | Test of improved 2/1 stability with reduced pedestal height | Control and Understand Core Stability in low Torque ITER Baseline | Petty | GA | No | No | No |