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
2testing, please ignore!Core-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationCovielloGANoBreakoutNoNo
35Reduction of background carbon via boron dropper for a closer approach to fusion reactor conditionsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationRhodesUCLAYesBreakoutNoNo
41Impurity Transport and Carbon Reduction in Wide Pedestal QH-ModeCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationErnstMassachusetts Institute of TechnologyYesBreakoutNoNo
89Sustainment of high Super H core confinementCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationKnolkerGAYesBreakoutNoNo
106Dependence of core-edge impurity transport on plasma shaping in Ti~Te and Ti>>Te regimesCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationSciortinoMax-Planck Institute for Plasma PhysicsYesBreakoutNoNo
107Optimization of impurity transport in RMP ELM-suppressed discharges with variable ECH locationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationSciortinoMax-Planck Institute for Plasma PhysicsYesBreakoutNoNo
136Impurity Transport from Core to Edge in IBS-like ConditionsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationHowardMassachusetts Institute of TechnologyYesBreakoutNoNo
137Impurity Transport from Core to Edge in Steady State Hybrid ConditionsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationHowardMassachusetts Institute of TechnologyYesBreakoutNoNo
143Development of high radiation scenario with dual seeding in open and closed divertorsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationCasaliU of Tennessee, KnoxvilleYesBreakoutYesNo
153Balancing the Tradeoffs Between High Performance and Core Purity & Stability in High Power HybridCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationGriersonGANoBreakoutNoNo
154How does divertor drift affect upstream profiles?Core-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationWangGAYesBreakoutNoNo
156Impact of magnetic perturbations on SOL force balanceCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationHinsonORNLYesBreakoutNoNo
158Effect of O-mode deposition radius on tearing mode onset and impurity profiles in high betaN plasmasCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
159Low level RMP feedback to control deuterium/impurity buildup in high power, high performance plasmasCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
160How changes in ROSP, fueling location, and dRsep during D2 injection affect hybrid performanceCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
161Effect of seed selection, ROSP, and magnetic balance on successful radiating divertor operationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
162Is krypton better than argon as a mantle seed in high power, high performance hybrid plasmas?Core-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
163Two-impurity approach as an optimal radiating divertor solution for DIII-DCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
164Effect of reversing the grad-B drift on high betaN plasmas under radiating divertor conditionsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPetrieGAYesBreakoutNoNo
175Make DIII-D a W or no W machineCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationTurcoColumbia UYesBreakoutNoNo
176Reversing the direction of the impurity pinch at ITER-relevant edge conditionsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationNelsonColumbia UYesBreakoutNoNo
191What can lost fast-ions tell us about the H-mode pedestal?Core-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationKramerPPPLNoBreakoutNoNo
195Obtaining High Core Confinement with High Edge Confinement using Pedestal ControlCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationKolemenPPPLYesBreakoutNoNo
202Pedestal and core impurity transport in super H-mode dischargesCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationOdstrcilGAYesBreakoutNoNo
204Understanding the Impact of the Tokamak Edge on Rf PropagationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationBrookmanGAYesBreakoutNoNo
207Measure and Influence Flow with Pump and PumpCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationAllenLLNLNoBreakoutNoNo
211Shape Thresholds for Super H Access and Application to JET DT CampaignCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationSnyderORNLYesBreakoutNoNo
212Minimize carbon in DIII-D AT plasmasCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationAllenLLNLNoBreakoutNoNo
214Hybrid approac to Super H-modeCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationNazikianGAYesBreakoutNoNo
215Core-Edge Compatibility of Super H Mode with Closed DivertorCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationSnyderORNLYesBreakoutNoNo
217co-Ip QH-mode approach to super H-modeCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationChenGANoBreakoutNoNo
224Integrate a divertor solution in the T=0 IBSCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationTurcoColumbia UYesBreakoutNoNo
238Mapping the Super H-mode Boundary and BifurcationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationBortolonPPPLYesBreakoutNoNo
241High performance core at high radiative fraction with real-time impurity feedback controlCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationAbbatePPPLYesGeneralNoNo
253Investigation and optimization of core and pedestal performanceCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationSolomonGANoBreakoutNoNo
254Compatibility of QH-mode with Radiative DivertprCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationWilksMITYesBreakoutNoNo
260Wide pedestal QH-mode at low Zeff through real-time boronizationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationBortolonPPPLYesBreakoutNoNo
261Exploring the role of nonlinear MHD in triggering tearing modes in Core-Edge Scenario OptimizationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationChapmanU of WisconsinYesBreakoutNoNo
269Pushing Steady-State Hybrid Scenario to Lower q95, Higher Beta and Higher Fusion GainCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPettyGANoBreakoutNoNo
272High Density Electron Heating With O-ModeCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationPettyGANoBreakoutNoYes
276Super QH-mode with feedback controlled radiationCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationEldonGAYesBreakoutNoNo
277Divertor radiated power control vs. ELM frequencyCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationEldonGANoBreakoutNoNo
278A Boron-Nitrogen radiative divertor for AT scenariosCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationBortolonPPPLNoBreakoutNoNo
284ELM-phase dependence on transport for different experimental conditionsCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationIzacardPrinceton UYesBreakoutNoNo
316A Boron-Nitrogen radiative divertor for AT scenariosCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationBortolonPPPLNoBreakoutNoNo
340Burn through of paced ELMs in detachmentCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationEldonGANoBreakoutNoNo
344Detachment onset density vs. 3D field strengthCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationEldonGANoBreakoutNoNo
409Detachment/T_e cliff onset density vs. I_p using control to stay on the edge of the cliffCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationEldonGANoBreakoutNoNo
412Test H-L back transition transient mitigation strategies in detachmentCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationEldonGAYesBreakoutNoNo
448Optimizing core-pedestal performance in Super H-ModeCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationSnyderORNLNoBreakoutNoNo
462Pedestal pressure enhancement at high density through decoupling of ped peeling and ballooning modesCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationOsborneGANoBreakoutNoNo
565Measure lambda-q during rotation scans at constant heating power in super H mode plasmasCore-Edge Integration Task Force incorporating Thrust: Core-Edge Scenario OptimizationGarofaloGANoBreakoutNoNo