W7-X OP 2.1 results

27 Nov 2023, 09:00 → 28 Nov 2023, 16:00 Europe/Berlin

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This workshop aims to summarize the status of exploitation of the W7-X OP 2.1 campaig. It should also be discussed if chosen methods and approaches were appropriate for the defined physics objectives in preparation of the operation campaigns OP 2.2 & 2.3.

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Monday 27 November

1 Welcome and introduction

Speaker: Olaf Grulke (IPP Greifswald)

Intro.pdf

TF-I

2 ICRH Plasma Startup at low Magnetic Field

O3: High Beta Scenario
D7: Plasma Startup at low B

Speaker: Jef Ongena (IPP Bereich Greifswald)

3 Discussion O3: High Beta Scenarios

4 High Performance Scenarios

O1: High Performance Scenarios
D1: Steady State High Performance
D2: Density Profile Control

Speaker: Golo Fuchert (IPP Greifswald)

TF1_O1_Fuchert.pdf

5 Simulations and Projections of High Performance Scenarios

O1: High Performance Scenarios
D1: Steady State High Performance

Speaker: Marc Beurskens (IPP Greifswald)

O1D1_High_Performance_Simulations.pdf

10:15 coffee break

6 Impurity Transport and Accumulation

O1: High Performance Scenarios
D3: Impurity Accumulation

Speaker: Felix Reimold (IPP-Greifswald)

2023-Reimold-W7X-Workshop.pdf

7 Discussion O1: High Performance Scenarios

8 Effective Ion Heating and Fast Ion Losses

O2: Heating Scenarios
D4: Effective Ion Heating
D6: Fast Ion Losses

Speaker: Dr Samuel Lazerson (IPP Bereich Greifswald)

Lazerson_W7XOP22workshop_112723.pdf

9 Status of the ECR / NBI / ICRH Heating Systems

O2: Heating Scenarios
D5: W7-X Operational Map

Speaker: Torsten Stange (IPP Bereich Greifswald)

Stange_-_TF-I_OP21_ResultsWorkshop.pdf

10 Discussion O2: Heating Scenarios / Fast Ions / W7-X Operational Map

12:00 lunch break

TF-II

11 Overview and O5: Reference discharge

D13: Regular performance of a standardized discharge with defined diagnostic coverage throughout the campaign

Title: Session overview for TF-II: Edge Scenario Development

Speaker: Kenneth Charles Hammond (IPP Bereich Greifswald)

Overview_TFII_D13_draft2.pdf

12 O1: Integrated scenarios for long-pulse operation with PFC heat load control, efficient particle exhaust, and impurity screening

D1: Demonstration of safe divertor scenarios to avoid overloaded plasma-facing components
D2: Determination of trim and/or control coil currents required to correct error fields

Speaker: Yu Gao (IPP Bereich Greifswald)

W7-X_OP2.1_results_YuGAO.pptx

13 O1: Integrated scenarios; O2: Detachment scenarios

D4: Demonstration of long-pulse operation
D5: Demonstration of scenarios with long, stationary divertor detachment; in particular, for the high-mirror, high-iota and standard configurations
D6: Characterize the conditions under which detachment is possible
D7: Achieve rapid transition to detachment

Speakers: Maciej Krychowiak (IPP Bereich Greifswald), Marcin Jakubowski (IPP Bereich Greifswald)

Jakubowski_Long_Pulse_Detachment.pptx

14 O1: Integrated scenarios for long-pulse operation with PFC heat load control, efficient particle exhaust, and impurity screening

D3: Demonstration of effective pumping, high divertor compression, and qualification of fueling actuators

Title: Overview: particle exhaust and gas balance

Speaker: Victoria Haak (IPP Bereich Greifswald)

Overview particle exhaust and gas balance_final.pptx

15 Discussions long pulse and detachment scenarios

14:20 coffee break

16 O3: Exploration of scenarios compatible with carbon-free operation and tungsten PFCs

D8: Definition of the operation limits associated with plasma-facing components containing tungsten materials
D10: Determination of erosion effects due to seeding impurities

Speaker: Chandra-Prakash Dhard (IPP Bereich Greifswald)

WS-OP21-results-W-studies-CP.pptx

17 O3: Exploration of scenarios compatible with carbon-free operation and tungsten PFCs

D9: Characterize the scrape-off layer retention for tungsten impurities (eroded from baffle and heat shield)
D11: Characterize enrichment/accumulation for low-Z and high-Z impurities

Title: Spectroscopic analysis of impurities in the edge

Speaker: Dorothea Gradic (IPP Greifswald)

Gradic - Edge Impurities meas by Spec.pptx

18 TF-III O2: Complete the edge and SOL physics basis in the magnetic configuration space of W7-X

D2: Validation of edge transport codes

Title: Validation of edge modeling codes

Speaker: Victoria Winters (E5)

OP21_WS_Winters_v3.pdf

19 O4: Development of wall conditioning procedures

D12: Condition walls to enable plasmas with high density gradients necessary for high performance
-> Wall conditioning: before and during the campaign

Speaker: Lilla Vano (IPP Bereich Greifswald)

w7x_workshop_OP2.1_vano.pdf

20 Discussions tungsten PFCs and conditioning

Tuesday 28 November

TF-III

21 Introduction and missing topics

Speakers: Carsten Killer (IPP Bereich Greifswald), Daniel Carralero (CIEMAT)

TFIII-AgendaOP21ResultWorkshop.pptx

22 O1: Complete the core transport and stability physics basis in the extended operational space

Talk title: Status of the OP2.1/OP2.2 profile analysis

D1: Documentation of relevant plasma profiles for detailed transport
analysis and modelling

Speaker: Marc Beurskens (IPP Greifswald)

Profile_analysis_28-11-2023.pdf

23 O1: Complete the core transport and stability physics basis in the extended operational space

D2: Assessment of the effects of heating and fueling actuators (profile
shaping, fast ions) and magnetic configuration on turbulent transport

Speaker: Jan-Peter Bähner (IPP Bereich Greifswald)

O1D2_turbulence.pptx

24 O1: Complete the core transport and stability physics basis in the extended operational space

D3: Documentation of core impurity profiles and perturbative
experiments for detailed impurity transport analysis and modelling

Speaker: Thilo Romba (IPP Bereich Greifswald)

2023 - W7-X workshop - Core impurity transport.pdf

25 O1: Complete the core transport and stability physics basis in the extended operational space

D4: Confirmation of neoclassical optimization at increased ion
temperatures.
D5: Confirmation of reduced equilibrium currents at higher betas and
different magnetic configurations.
D6: Documentation of MHD stability and limits and fast-particle driven
MHD modes within the magnetic configuration space.

Speaker: Joachim Geiger (Max-Planck-Institute for Plasma Physics, Greifswald, Germany)

W7-X_Workshop_on_Results_in_OP2.1_JGeiger_20231127.pdf

26 O1: Complete the core transport and stability physics basis in the extended operational space

D6: Documentation of MHD stability and limits and fast-particle driven
MHD modes within the magnetic configuration space.

Speaker: Kian Rahbarnia (IPP Greifswald)

mode_activity_OP2.1.pdf

27 Discussions core transport and stability

10:40 coffee break

28 O2: Complete the edge and SOL physics basis in the magnetic configuration space of W7-X

D1: Providing the experimental data base for understanding transport
mechanisms in the island divertor SOL and across the LCFS,
including flows, drifts, turbulence
D4: Characterization of asymmetries of plasma conditions and radiation,
mapping of diagnostic results in 3D island divertor

Speaker: Sean Ballinger

Ballinger W7X workshop Nov 2023.pdf

Ballinger W7X workshop Nov 2023.pptx

29 O2: Complete the edge and SOL physics basis in the magnetic configuration space of W7-X

D1: Providing the experimental data base for understanding transport
mechanisms in the island divertor SOL and across the LCFS,
including flows, drifts, turbulence
D2: Validation of edge transport codes

Speaker: Matt Kriete (Auburn University)

Presentation_OP21ResultsWorkshop_DMK.pptx

30 O2: Complete the edge and SOL physics basis in the magnetic configuration space of W7-X

D4: Characterization of asymmetries of plasma conditions and radiation,
mapping of diagnostic results in 3D island divertor

Speaker: Gabriele Partesotti (IPP Bereich Greifswald)

20231128_Partesotti_W7X_Workshop.pdf

31 Discussions SOL physics

12:05 lunch break

general Discussions

32 Schedule and forecast OP 2.2

Speaker: Olaf Grulke (IPP Greifswald)

Discussion.pdf