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
10Maintain low-rotation QH-mode with ECH onlyInductive ScenariosGANoNoNo
13Compare edge particle transport in ELMing H-mode and QH-mode with and without NRMFInductive ScenariosGANoNoNo
14Control of toroidal mode number of EHOInductive ScenariosGANoNoNo
15Edge rotation shear threshold for QH-mode accessInductive ScenariosGANoNoNo
16Further development of QH-mode with strong co-Ip NBI torqueInductive ScenariosGANoNoNo
41Investigation of the effects of the EHO toroidal mode number on the edge particle transportInductive ScenariosPPPLNoNoNo
53QH-mode with low torque start-upInductive ScenariosGANoNoNo
61Energy Transport During Electron-Dominated Heating of ITER-Relevant H-Mode DischargesInductive ScenariosPPPLYesNoNo
109Electron Heat Transport in E-Dominated Heating of ITER-like H-Mode Discharges with Modulated ECHInductive ScenariosU of WisconsinYesNoNo
115QH-mode at low co-Ip torque using n=2 NRMFInductive ScenariosGANoNoNo
118Dominant electron heated ITER baseline scenario studiesInductive ScenariosColumbia UYesNoNo
120Optimizing non-resonant, nonaxisymmetric fields in QH-modeInductive ScenariosGANoNoNo
124Electron Energy Transport during q0 control using modulated EC powerInductive ScenariosORNLNoNoNo
127Characterization of Intense Bursts of Millimeter Wave Emission in QH-mode PlasmaInductive ScenariosUC, DavisYesNoNo
140q0 control with Counter-ECCD in ITER Baseline DischargesInductive ScenariosRetiredNoNoNo
194Correlation of confinement and fluctuations with electron heating in ITER Baseline ScenarioInductive ScenariosGANoNoNo
234Study fishbone-like instability at the edge of QH-modesInductive ScenariosInstituto Superior Tecnico, Lisboa, PortugalNoNoNo
243256: SOL width and divertor peak heat flux in QH-mode plasmas with/without n=3 fieldsInductive ScenariosGANoNoNo
246Develop low-torque, high normalized fusion performance QH-mode for ITER baseline scenarioInductive ScenariosGANoNoNo
247Develop low-torque, high normalized fusion performance QH-mode for FNSF-AT scenarioInductive ScenariosGANoNoNo
253Study QH-mode with advanced fast ion diagnostics and codesInductive ScenariosGANoNoNo
257Transport Investigation During Slow Current Ramp-Up and Ramp-Down [for ITER]Inductive ScenariosU of WisconsinNoYesNo
260ITER Baseline Scenario DemonstrationInductive ScenariosITER OrganizationNoYesNo
261Demonstration of stationary inductive solutions at low and moderate q95Inductive ScenariosITER OrganizationNoNoNo
263Radiative divertor solutions in the ITER baseline scenarioInductive ScenariosITER OrganizationNoYesYes
266Understand resistive wall mode control physics in low-q95 plasmasInductive ScenariosColumbia UNoNoNo
283ITER Baseline Scenario Operation near the LH ThresholdInductive ScenariosITER OrganizationNoYesNo
285Access to advanced inductive operation in ITERInductive ScenariosITER OrganizationNoYesNo
286Collisionality scaling of confinement in advanced inductive regimesInductive ScenariosITER OrganizationNoYesNo
292Optimize electron pedestal pressure in low-torque ITER baseline plasmasInductive ScenariosUCLANoNoNo
297ITER baseline scenario with low NBI torqueInductive ScenariosGANoNoNo
300Effect of triangularity in ITER shape and improved shapingInductive ScenariosGANoNoNo
303Effect on lithium wall conditioning for Co-QH-mode and edge pedestal characteristicsInductive ScenariosGANoNoNo
313Hybrids with co-NBI QH-mode edgeInductive ScenariosGANoNoNo
318Current profile control for stable ITER baseline scenario plasmasInductive ScenariosColumbia UNoNoNo
321Access to low torque QH-mode using high beta low torque AI target with NRMFInductive ScenariosGANoNoNo
322ELM pacing in low torque, electron heated ITER baselineInductive ScenariosGANoNoNo
323Access to QH-mode with low NBI torqueInductive ScenariosGANoNoNo
324Document turbulence change with rotation in AI, and compare with theoryInductive ScenariosGANoNoNo
330QH-mode with TBMInductive ScenariosGANoNoNo
337Routine current profile control in operationInductive ScenariosGANoNoNo
344Evaluating Physics of QH-mode Stationary Enhanced Confinement Regime Without ELMs for the 2013 JInductive ScenariosLLNLNoNoNo
375QH-mode pedestal optimizationInductive ScenariosORNLNoNoNo
401ITER Baseline Scenario DemonstrationInductive ScenariosITER OrganizationNoYesNo
402Radiative divertor solutions in the ITER baseline scenarioInductive ScenariosITER OrganizationNoYesNo
404ITER Baseline Scenario Operation near the LH ThresholdInductive ScenariosITER OrganizationNoYesNo
408Access to advanced inductive operation in ITERInductive ScenariosITER OrganizationNoYesNo
409Collisionality scaling of confinement in advanced inductive regimesInductive ScenariosITER OrganizationNoYesNo
411Demonstration of stationary inductive solutions at low and moderate q95Inductive ScenariosITER OrganizationNoNoNo
415Access to zero torque advanced inductive with direct stabilization of the 2/1 mode by ECCDInductive ScenariosITER OrganizationNoNoNo
416Burn Control in ITER Baseline ScenarioInductive ScenariosITER OrganizationNoYesNo
418Mapping the current rise stability boundary for the ITER baseline scenarioInductive ScenariosITER OrganizationNoNoYes
419Support of ITER Research Plan for Q=10 OperationInductive ScenariosITER OrganizationNoNoNo
444Identify the Optimal Impurity for High Power High Performance Plasmas During Radiating Divertor OpsInductive ScenariosGANoNoNo
448Density Control and Active Impurity Removal from Double-null H-mode PlasmasInductive ScenariosGANoNoNo
450Hybrids with co-NBI QH-mode edgeInductive ScenariosGANoNoNo
452Source of Magnetic Flux Pumping in HybridsInductive ScenariosGANoNoNo
456Energy Transport During Electron-Dominated Heating of ITER Baseline Scenario H-Mode DischInductive ScenariosPPPLNoNoNo
466Extending hybrid discharges to low noninductive fraction through flux-pumping controlInductive ScenariosDepartment of EnergyYesNoNo
467Sustainment of q<2 through pseudo wall rotationInductive ScenariosDepartment of EnergyYesNoNo
468H-mode access to q95<2 through 3/2 sustainment and 2/1 preemptionInductive ScenariosDepartment of EnergyYesNoNo
471The experiment on generalized hybrid scenario with qmin > 2 at low density and relatively high q95Inductive ScenariosASIPPYesNoNo
476Impact of TBM-induced field ripple in low-torque ITER baselineInductive ScenariosDepartment of EnergyYesNoYes
490Maintain low-rotation QH-mode with ECH onlyInductive ScenariosGANoNoNo
494Further development of QH-mode with strong co-Ip NBI torqueInductive ScenariosGANoNoNo
495QH-mode with low torque start-upInductive ScenariosGANoNoNo
497Cause(s) for the rotation degradation and tearing instabilities of the ITER baseline scenarioInductive ScenariosColumbia UNoNoNo
508ITER Baseline Scenario in a Radiating Divertor Environment with near-Zero Applied TorqueInductive ScenariosGANoNoYes
511Impact of EHO on fast ion lossesInductive ScenariosPPPLNoNoNo
512Best Impurity Specie for the Radiating Divertor in the ITER Baseline Scenario with near-Zero TorqueInductive ScenariosGANoNoYes
527256: SOL width and divertor peak heat flux in QH-mode plasmas with/without n=3 fieldsInductive ScenariosGANoNoNo
534Develop low-torque, high normalized fusion performance QH-mode for ITER baseline scenarioInductive ScenariosGANoNoNo
551Test compatibility of radiative divertor with QH-modeInductive ScenariosGANoNoNo
567Is loss of rotation in low-torque IBS discharges due to solenoid-related error fields?Inductive ScenariosGANoNoNo
568ITER Baseline Scenario: Expand the operational limit by NTM stabilization and Time Dependent EFCInductive ScenariosPPPLNoNoNo
573Impact of EHO on fast ion lossesInductive ScenariosPPPLNoNoNo
589Exploration of super H-mode using high density QH-modeInductive ScenariosGANoNoNo
604EF optimization of low-torque low-q95 QH mode plasmasInductive ScenariosColumbia UNoNoNo
628He H-mode plasmas studies for the ITER non-active operational phaseInductive ScenariosITER OrganizationYesNoYes
638BetaN control with 3D Fields instead of NBIInductive ScenariosPPPLNoNoNo
645Access to low torque QH-mode using high beta low torque AI target with NRMFInductive ScenariosGANoNoNo
652QH-mode operation with reduced divertor interactionInductive ScenariosGANoNoNo
654Effect of sawteeth on QH-mode pedestal (EHO)Inductive ScenariosGANoNoNo
681Transport Investigation During Slow Current Ramp-Up and Ramp-Down [for ITER]Inductive ScenariosU of WisconsinNoNoNo
709Physics of EHO control in low-torque QH-modeInductive ScenariosDepartment of EnergyNoNoNo
784Understanding the NTM Stability Limits by q-profile modificationInductive ScenariosPPPLNoNoNo
789Iter Scenario: Optimize Radiative Divertor and Core PerformanceInductive ScenariosPPPLNoNoNo
794ITER Scenario: Understanding the NTM Stability Limits by q-profile modificationInductive ScenariosPPPLNoNoNo