DIII-D RESEARCH OPPORTUNITIES FORUM FOR THE 2014 EXPERIMENTAL CAMPAIGN Review | Direct submission with log-in | Request submission without log-in

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Below is a public summary listing:
(Proposal numbers 1-382 are from 2013)
ID Title Research Area Name Affiliation Time
Req'ed		 ITPA
Joint Exp 		ITER IO Urgent
Research Task
30New Optimal Plasma Shape for AT Scenario?Steady State Heating and Current DriveGANoNoNo
32High Beta Hybrids and Pressure Profile BroadeningSteady State Heating and Current DriveGANoNoNo
33High Beta, Steady State HybridsSteady State Heating and Current DriveGANoNoNo
36Natural ELM Pacing in High-Beta, Steady-State PlasmasSteady State Heating and Current DriveGANoNoNo
39Measure and understand energetic particle profiles in steady-state plasmasSteady State Heating and Current DriveUC, IrvineNoNoNo
42Compatibility of High Performance Plasmas With a Puff-and-Pump Radiating DivertorSteady State Heating and Current DriveGANoNoNo
138SSI target improvement by minimizing global low-n MHD activity in 1.5 Steady State Heating and Current DrivePPPLNoNoNo
151ITER SS Demo Discharge DocumentationsSteady State Heating and Current DriveRetiredNoNoNo
158Expand the high li, betaN >4 operating regime through instability avoidance and higher heating powerSteady State Heating and Current DriveGANoNoNo
160Dependence of confinement and stability on toroidal rotation in high li dischargesSteady State Heating and Current DriveGANoNoNo
162210RT MSE and low rotation, elevated q_min steady-state scenario discharges at high betaNSteady State Heating and Current DriveGANoNoNo
164Produce fNI = 1 discharges at q_min near 1.5 using off-axis injection and a model guided approachSteady State Heating and Current DriveGANoNoNo
172High betaN with off-axis injection at reduced Bt (if 2011-level beam power is available)Steady State Heating and Current DriveGANoNoNo
173Confinement and fast ion diffusion in high betaN, steady-state scenario dischargesSteady State Heating and Current DriveGANoNoNo
175Beta collapse avoidance in SSI discharges by de-synchronizing toroidal harmonics by using feedbackSteady State Heating and Current DrivePPPLNoNoNo
176Beta collapse avoidance in SSI discharges by de-synchronizing toroidal harmonics by using feedbackSteady State Heating and Current DrivePPPLNoNoNo
178Beta limit and bootstrap current fraction in ITER steady-state scenario dischargesSteady State Heating and Current DriveGANoNoNo
179Snowflake in AT PlasmaSteady State Heating and Current DriveLLNLNoNoNo
180Establish the incremental confinement of EC power in high betaN steady-state scenario dischargesSteady State Heating and Current DriveGANoNoNo
208qmin controlSteady State Heating and Current DrivePPPLYesNoNo
216Campaign to study physics at the Greenwald limitSteady State Heating and Current DrivePPPLYesNoNo
249Steady-state high beta with NCS and qmin>2Steady State Heating and Current DriveGANoNoNo
267Understand and control resistive wall mode stability in high-qmin plasmasSteady State Heating and Current DriveColumbia UNoNoNo
284Access conditions for steady-state operation in ITERSteady State Heating and Current DriveITER OrganizationNoYesNo
287High li steady-state scenario developmentSteady State Heating and Current DriveITER OrganizationNoNoNo
289Demonstrate access to beta_N=5 with min(q)>2Steady State Heating and Current DriveITER OrganizationNoNoNo
310Energy Transport During Electron-Dominated Heating of ITER-Relevant H-Mode DischargesSteady State Heating and Current DrivePPPLNoNoNo
311Transport with qmin>2Steady State Heating and Current DriveLLNLNoNoNo
312Limits to pedestal radiation high beta dischargesSteady State Heating and Current DriveGANoNoNo
332Demonstration of noninductive Q=5 scenario in ITER shape using off-axis NBISteady State Heating and Current DriveORNLNoNoNo
333Far off-axis NBCDSteady State Heating and Current DriveORNLNoNoNo
334Measurement of neoclassical response of off-axis beam ionsSteady State Heating and Current DriveORNLNoNoNo
335Off-axis NBCD measurement in steady state scenarioSteady State Heating and Current DriveORNLNoNoNo
336Routine current profile control in operationSteady State Heating and Current DriveGANoNoNo
382Transport and turbulence characterization experimentSteady State Heating and Current DriveUCLANoNoNo
405Access conditions for steady-state operation in ITERSteady State Heating and Current DriveITER OrganizationNoYesNo
406Fast-ion and thermal transport at high qminSteady State Heating and Current DriveITER OrganizationNoYesNo
412Development of Reproducible Startup and Target q Profile Control for Steady State ScenariosSteady State Heating and Current DriveITER OrganizationNoNoNo
413Demonstrate access to beta_N=5 with min(q)>2Steady State Heating and Current DriveITER OrganizationNoNoNo
414High li steady-state scenario developmentSteady State Heating and Current DriveITER OrganizationNoNoNo
436High Beta Hybrids and Pressure Profile BroadeningSteady State Heating and Current DriveGAYesNoNo
459Model-based control of the current profile and βN for steady state scenariosSteady State Heating and Current DriveCadaracheNoNoNo
470Development of Fully Noninductive High Beta EAST ScenarioSteady State Heating and Current DriveASIPPYesNoNo
501Energy Transport During Electron-Dominated Heating of ITER Baseline Scenario H-Mode DischargesSteady State Heating and Current DrivePPPLNoNoNo
521Dependence of confinement and stability on toroidal rotation in high li dischargesSteady State Heating and Current DriveGANoNoNo
536Low rotation, elevated q_min steady-state scenario discharges at high betaN and 210R MSESteady State Heating and Current DriveGANoNoNo
538Reduce fast ion transport in high qmin, high beta plasmasSteady State Heating and Current DriveLLNLNoNoNo
539Produce fNI = 1 discharges at q_min near 1.5 using off-axis injection and a model guided approachSteady State Heating and Current DriveGANoNoNo
540Establish the incremental confinement of EC power in high betaN steady-state scenario dischargesSteady State Heating and Current DriveGANoNoNo
544Super H-Mode: Scenario DevelopmentSteady State Heating and Current DriveORNLYesNoNo
545High beta with NCS and qmin>2Steady State Heating and Current DriveGANoNoNo
548Improve the optimized high li operating regime through 1/1 and 2/1 instability avoidanceSteady State Heating and Current DriveGANoNoNo
554The impact of increased pressure gradient on scenarios for fully noninductive operationSteady State Heating and Current DriveGANoNoNo
558Expand the high li, betaN >4 operating regime through NTM Stabilization and Large Sawtooth AvoidanceSteady State Heating and Current DrivePPPLYesNoNo
569High Beta, Steady State HybridsSteady State Heating and Current DriveGAYesNoNo
571Optimal Plasma Shape for High-Beta, Steady-State Hybrid ScenarioSteady State Heating and Current DriveGAYesNoNo
572Collisionality Scaling of High-Beta, Steady-State HybridsSteady State Heating and Current DriveGAYesNoNo
595ITER steady-state scenario in USN, +BTSteady State Heating and Current DriveORNLNoNoNo
596q95 dependency of beam ion confinement in high qmin scenarioSteady State Heating and Current DriveORNLNoNoNo
597Apple-to-apple comparison of ITER steady-state scenarios: high/elevated qmin, SS hybrid, and high liSteady State Heating and Current DriveORNLNoNoNo
598Far off-axis NBCD using vertically shifted plasmaSteady State Heating and Current DriveORNLNoNoNo
599Measurement of neoclassical response of off-axis beam ionsSteady State Heating and Current DriveORNLNoNoNo
600Anomalous current diffusion in steady-state hybrid scenario with ELM suppressionSteady State Heating and Current DriveORNLNoNoNo
613Testing for parameter space with the best fast ion confinement at high q_minSteady State Heating and Current DriveGANoNoNo
615Increase achievable betaN in high betaP experiment using n=3 betaN feedback (ala burn control)Steady State Heating and Current DriveGANoNoNo
632Mutual alignment of gyrotrons: a new technique based on mirror-steering and anti-phase modulationSteady State Heating and Current DriveColumbia UYesNoNo
643Campaign to study physics at the Greenwald limitSteady State Heating and Current DrivePPPLNoNoNo
664Follow-up studies of fast-ion transport effects on steady-state plasmasSteady State Heating and Current DriveUC, IrvineNoNoNo
704Use high betaP operating regime to study fast ion transportSteady State Heating and Current DriveLLNLNoNoNo
708444: Identify the Optimal Impurity for High Power High Performance Plasmas During Radiating Divertor OpsSteady State Heating and Current DriveGANoNoNo
716Assess the destabilization mechanism for the n = 1 tearing mode in steady-state scenario dischargesSteady State Heating and Current DriveGANoNoNo
721qmin controlSteady State Heating and Current DrivePPPLNoNoNo
774Rotating Magnetic Field Current Drive (RMFCD)Steady State Heating and Current DriveMassachusetts Institute of TechnologyNoNoNo
775High qmin transient betaN=5 demonstrationSteady State Heating and Current DriveLLNLNoNoNo
7803D coil based BetaN control instead of NBI based BetaN control.Steady State Heating and Current DrivePPPLNoNoNo
783Development of Fully Noninductive High Beta EAST Scenario IISteady State Heating and Current DriveGANoNoNo
787Optimize Radiative Divertor and Core PerformanceSteady State Heating and Current DrivePPPLNoNoNo