DIII-D RESEARCH OPPORTUNITIES FORUM FOR THE 2014 EXPERIMENTAL CAMPAIGN
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(Proposal numbers 1-382 are from 2013) | |||||||||
ID | Title | Research Area | Name | Affiliation |
Time Req'ed |
ITPA Joint Exp |
ITER IO Urgent Research Task |
||
30 | New Optimal Plasma Shape for AT Scenario? | Steady State Heating and Current Drive | GA | No | No | No | |||
32 | High Beta Hybrids and Pressure Profile Broadening | Steady State Heating and Current Drive | GA | No | No | No | |||
33 | High Beta, Steady State Hybrids | Steady State Heating and Current Drive | GA | No | No | No | |||
36 | Natural ELM Pacing in High-Beta, Steady-State Plasmas | Steady State Heating and Current Drive | GA | No | No | No | |||
39 | Measure and understand energetic particle profiles in steady-state plasmas | Steady State Heating and Current Drive | UC, Irvine | No | No | No | |||
42 | Compatibility of High Performance Plasmas With a Puff-and-Pump Radiating Divertor | Steady State Heating and Current Drive | GA | No | No | No | |||
138 | SSI target improvement by minimizing global low-n MHD activity in 1.5 Steady State Heating and Current Drive | PPPL | No | No | No | | |||
151 | ITER SS Demo Discharge Documentations | Steady State Heating and Current Drive | Retired | No | No | No | |||
158 | Expand the high li, betaN >4 operating regime through instability avoidance and higher heating power | Steady State Heating and Current Drive | GA | No | No | No | |||
160 | Dependence of confinement and stability on toroidal rotation in high li discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
162 | 210RT MSE and low rotation, elevated q_min steady-state scenario discharges at high betaN | Steady State Heating and Current Drive | GA | No | No | No | |||
164 | Produce fNI = 1 discharges at q_min near 1.5 using off-axis injection and a model guided approach | Steady State Heating and Current Drive | GA | No | No | No | |||
172 | High betaN with off-axis injection at reduced Bt (if 2011-level beam power is available) | Steady State Heating and Current Drive | GA | No | No | No | |||
173 | Confinement and fast ion diffusion in high betaN, steady-state scenario discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
175 | Beta collapse avoidance in SSI discharges by de-synchronizing toroidal harmonics by using feedback | Steady State Heating and Current Drive | PPPL | No | No | No | |||
176 | Beta collapse avoidance in SSI discharges by de-synchronizing toroidal harmonics by using feedback | Steady State Heating and Current Drive | PPPL | No | No | No | |||
178 | Beta limit and bootstrap current fraction in ITER steady-state scenario discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
179 | Snowflake in AT Plasma | Steady State Heating and Current Drive | LLNL | No | No | No | |||
180 | Establish the incremental confinement of EC power in high betaN steady-state scenario discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
208 | qmin control | Steady State Heating and Current Drive | PPPL | Yes | No | No | |||
216 | Campaign to study physics at the Greenwald limit | Steady State Heating and Current Drive | PPPL | Yes | No | No | |||
249 | Steady-state high beta with NCS and qmin>2 | Steady State Heating and Current Drive | GA | No | No | No | |||
267 | Understand and control resistive wall mode stability in high-qmin plasmas | Steady State Heating and Current Drive | Columbia U | No | No | No | |||
284 | Access conditions for steady-state operation in ITER | Steady State Heating and Current Drive | ITER Organization | No | Yes | No | |||
287 | High li steady-state scenario development | Steady State Heating and Current Drive | ITER Organization | No | No | No | |||
289 | Demonstrate access to beta_N=5 with min(q)>2 | Steady State Heating and Current Drive | ITER Organization | No | No | No | |||
310 | Energy Transport During Electron-Dominated Heating of ITER-Relevant H-Mode Discharges | Steady State Heating and Current Drive | PPPL | No | No | No | |||
311 | Transport with qmin>2 | Steady State Heating and Current Drive | LLNL | No | No | No | |||
312 | Limits to pedestal radiation high beta discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
332 | Demonstration of noninductive Q=5 scenario in ITER shape using off-axis NBI | Steady State Heating and Current Drive | ORNL | No | No | No | |||
333 | Far off-axis NBCD | Steady State Heating and Current Drive | ORNL | No | No | No | |||
334 | Measurement of neoclassical response of off-axis beam ions | Steady State Heating and Current Drive | ORNL | No | No | No | |||
335 | Off-axis NBCD measurement in steady state scenario | Steady State Heating and Current Drive | ORNL | No | No | No | |||
336 | Routine current profile control in operation | Steady State Heating and Current Drive | GA | No | No | No | |||
382 | Transport and turbulence characterization experiment | Steady State Heating and Current Drive | UCLA | No | No | No | |||
405 | Access conditions for steady-state operation in ITER | Steady State Heating and Current Drive | ITER Organization | No | Yes | No | |||
406 | Fast-ion and thermal transport at high qmin | Steady State Heating and Current Drive | ITER Organization | No | Yes | No | |||
412 | Development of Reproducible Startup and Target q Profile Control for Steady State Scenarios | Steady State Heating and Current Drive | ITER Organization | No | No | No | |||
413 | Demonstrate access to beta_N=5 with min(q)>2 | Steady State Heating and Current Drive | ITER Organization | No | No | No | |||
414 | High li steady-state scenario development | Steady State Heating and Current Drive | ITER Organization | No | No | No | |||
436 | High Beta Hybrids and Pressure Profile Broadening | Steady State Heating and Current Drive | GA | Yes | No | No | |||
459 | Model-based control of the current profile and βN for steady state scenarios | Steady State Heating and Current Drive | Cadarache | No | No | No | |||
470 | Development of Fully Noninductive High Beta EAST Scenario | Steady State Heating and Current Drive | ASIPP | Yes | No | No | |||
501 | Energy Transport During Electron-Dominated Heating of ITER Baseline Scenario H-Mode Discharges | Steady State Heating and Current Drive | PPPL | No | No | No | |||
521 | Dependence of confinement and stability on toroidal rotation in high li discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
536 | Low rotation, elevated q_min steady-state scenario discharges at high betaN and 210R MSE | Steady State Heating and Current Drive | GA | No | No | No | |||
538 | Reduce fast ion transport in high qmin, high beta plasmas | Steady State Heating and Current Drive | LLNL | No | No | No | |||
539 | Produce fNI = 1 discharges at q_min near 1.5 using off-axis injection and a model guided approach | Steady State Heating and Current Drive | GA | No | No | No | |||
540 | Establish the incremental confinement of EC power in high betaN steady-state scenario discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
544 | Super H-Mode: Scenario Development | Steady State Heating and Current Drive | ORNL | Yes | No | No | |||
545 | High beta with NCS and qmin>2 | Steady State Heating and Current Drive | GA | No | No | No | |||
548 | Improve the optimized high li operating regime through 1/1 and 2/1 instability avoidance | Steady State Heating and Current Drive | GA | No | No | No | |||
554 | The impact of increased pressure gradient on scenarios for fully noninductive operation | Steady State Heating and Current Drive | GA | No | No | No | |||
558 | Expand the high li, betaN >4 operating regime through NTM Stabilization and Large Sawtooth Avoidance | Steady State Heating and Current Drive | PPPL | Yes | No | No | |||
569 | High Beta, Steady State Hybrids | Steady State Heating and Current Drive | GA | Yes | No | No | |||
571 | Optimal Plasma Shape for High-Beta, Steady-State Hybrid Scenario | Steady State Heating and Current Drive | GA | Yes | No | No | |||
572 | Collisionality Scaling of High-Beta, Steady-State Hybrids | Steady State Heating and Current Drive | GA | Yes | No | No | |||
595 | ITER steady-state scenario in USN, +BT | Steady State Heating and Current Drive | ORNL | No | No | No | |||
596 | q95 dependency of beam ion confinement in high qmin scenario | Steady State Heating and Current Drive | ORNL | No | No | No | |||
597 | Apple-to-apple comparison of ITER steady-state scenarios: high/elevated qmin, SS hybrid, and high li | Steady State Heating and Current Drive | ORNL | No | No | No | |||
598 | Far off-axis NBCD using vertically shifted plasma | Steady State Heating and Current Drive | ORNL | No | No | No | |||
599 | Measurement of neoclassical response of off-axis beam ions | Steady State Heating and Current Drive | ORNL | No | No | No | |||
600 | Anomalous current diffusion in steady-state hybrid scenario with ELM suppression | Steady State Heating and Current Drive | ORNL | No | No | No | |||
613 | Testing for parameter space with the best fast ion confinement at high q_min | Steady State Heating and Current Drive | GA | No | No | No | |||
615 | Increase achievable betaN in high betaP experiment using n=3 betaN feedback (ala burn control) | Steady State Heating and Current Drive | GA | No | No | No | |||
632 | Mutual alignment of gyrotrons: a new technique based on mirror-steering and anti-phase modulation | Steady State Heating and Current Drive | Columbia U | Yes | No | No | |||
643 | Campaign to study physics at the Greenwald limit | Steady State Heating and Current Drive | PPPL | No | No | No | |||
664 | Follow-up studies of fast-ion transport effects on steady-state plasmas | Steady State Heating and Current Drive | UC, Irvine | No | No | No | |||
704 | Use high betaP operating regime to study fast ion transport | Steady State Heating and Current Drive | LLNL | No | No | No | |||
708 | 444: Identify the Optimal Impurity for High Power High Performance Plasmas During Radiating Divertor Ops | Steady State Heating and Current Drive | GA | No | No | No | |||
716 | Assess the destabilization mechanism for the n = 1 tearing mode in steady-state scenario discharges | Steady State Heating and Current Drive | GA | No | No | No | |||
721 | qmin control | Steady State Heating and Current Drive | PPPL | No | No | No | |||
774 | Rotating Magnetic Field Current Drive (RMFCD) | Steady State Heating and Current Drive | Massachusetts Institute of Technology | No | No | No | |||
775 | High qmin transient betaN=5 demonstration | Steady State Heating and Current Drive | LLNL | No | No | No | |||
780 | 3D coil based BetaN control instead of NBI based BetaN control. | Steady State Heating and Current Drive | PPPL | No | No | No | |||
783 | Development of Fully Noninductive High Beta EAST Scenario II | Steady State Heating and Current Drive | GA | No | No | No | |||
787 | Optimize Radiative Divertor and Core Performance | Steady State Heating and Current Drive | PPPL | No | No | No |