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 |
| 219 | Detection of marginally stable modes in high qmin scenarios using the MM MHD spectroscopy vs shape | Steady State Scenarios & High qmin Thrust | Munaretto | PPPL | Yes | Breakout | No | No |
| 221 | Detection of marginally stable modes in high qmin scenarios using the MM MHD spectroscopy vs q95 | Steady State Scenarios & High qmin Thrust | Munaretto | PPPL | Yes | Breakout | No | No |
| 222 | Apply MM MHD spectroscopy results from #219/#221 experiments to achieve ELM suppression in high qmin | Steady State Scenarios & High qmin Thrust | Munaretto | PPPL | Yes | Breakout | No | No |
| 223 | Use the multimode MHD spectroscopy in real time to control the NBI and modify the modes stability | Steady State Scenarios & High qmin Thrust | Munaretto | PPPL | Yes | Breakout | No | No |
| 282 | Explore the use of the RMP to control the heat flux peak in high BetaP plasmas. | DIII-D/EAST Task Force/Thrust | Munaretto | PPPL | Yes | Breakout | No | No |
| 285 | Understanding the connection between ELM suppression and magnetic footprint size. | ELM Control | Munaretto | PPPL | Yes | Breakout | No | No |
| 451 | Combine the MM MHD spectroscopy, ML, RT DCON to control q95 and beta and modify the modes stability | 3DSP | Munaretto | PPPL | Yes | Breakout | No | No |
| 455 | Detection of marginally stable modes in high betaP scenarios using the MM MHD spectroscopy | DIII-D/EAST Task Force/Thrust | Munaretto | PPPL | Yes | Breakout | No | No |