DIII-D RESEARCH OPPORTUNITIES FORUM FOR THE 2019 EXPERIMENTAL CAMPAIGN
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| ID | Title | Research Area | Name | Affiliation |
Time Req'ed |
Presentation |
ITPA Joint Exp |
ITER IO Urgent Research Task |
| 37 | Wide Pedestal QH-Mode Path to Super H-Mode | Inductive Scenarios | Ernst | Massachusetts Institute of Technology | Yes | Breakout | No | No |
| 57 | Assess robustness of ITER baseline plasma response control | Inductive Scenarios | Hanson | Columbia U | No | Breakout | No | No |
| 76 | RMP-ELM Suppression Access Conditions with the actual ITER shape | Inductive Scenarios | Paz-Soldan | Columbia U | Yes | Breakout | No | No |
| 77 | Direct comparison of ITER similar shape (ISS) and ITER baseline scenario (IBS) plasmas for RMP-ELM | Inductive Scenarios | Paz-Soldan | Columbia U | No | Breakout | No | No |
| 149 | QH-mode for Q=10 IBS at Zero NBI torque by reducing the pressure profile peaking | Inductive Scenarios | Garofalo | GA | Yes | Breakout | No | Yes |
| 168 | Extend Zero Torque Wide Pedestal QH-Mode Operation to IBS Parameters | Inductive Scenarios | Ernst | Massachusetts Institute of Technology | Yes | Breakout | No | No |
| 170 | Tailor the T=0 IBS to achieve the fusion power and gain mission | Inductive Scenarios | Turco | Columbia U | Yes | Breakout | No | No |
| 171 | Assess the impact of EC power location on the performance and the stability of the T=0 IBS | Inductive Scenarios | Turco | Columbia U | Yes | Breakout | No | No |
| 172 | Integrate ITER relevant perturbations to the IBS, assess options to maintain stability & performance | Inductive Scenarios | Turco | Columbia U | Yes | Breakout | No | No |
| 173 | Asses the benefits and impact of ohmic or heated L-mode phase in the IBS ramp-up | Inductive Scenarios | Turco | Columbia U | Yes | Breakout | No | No |
| 174 | Make DIII-D a W or no W machine | Inductive Scenarios | Turco | Columbia U | Yes | Breakout | No | No |
| 229 | Measure and control resistive kink mode stability | Inductive Scenarios | Hanson | Columbia U | No | Breakout | No | No |
| 230 | Study the high density branch of RMP ELM suppression in the IBS | Inductive Scenarios | Turco | Columbia U | Yes | Breakout | No | No |
| 312 | Exploring the role of nonlinear MHD in triggering tearing modes in IBS and adv. ind. hybrid scenario | Inductive Scenarios | Chapman | U of Wisconsin | Yes | Breakout | No | No |
| 313 | Exploring the role of fluctuation-based dynamos in magnetic flux pumping | Inductive Scenarios | Chapman | U of Wisconsin | Yes | Breakout | No | No |
| 320 | Access super H-mode in ITER Q=10 baseline target | Inductive Scenarios | Nazikian | GA | Yes | Breakout | No | No |
| 355 | High fusion gain in the advanced inductive | Inductive Scenarios | Thome | GA | No | Breakout | No | No |
| 377 | RMP ELM suppression for inductive Hybrid plasmas relevant to the ITER Q=10 mission | Inductive Scenarios | Nazikian | GA | Yes | Breakout | No | No |
| 489 | Developing low-disruptivity ramp-down techniques for the ITER Baseline Scenario | Inductive Scenarios | Barr | GA | No | Breakout | No | No |
| 538 | Expanding the Wide Pedestal QH to IBS Parameters | Inductive Scenarios | Chen | GA | No | Breakout | No | No |