论文信息 - Diagnostic set-up and modelling for investigation of synergy between 3D edge physics and plasma-wall interactions on Wendelstein 7-X - 字舞流文

Diagnostic set-up and modelling for investigation of synergy between 3D edge physics and plasma-wall interactions on Wendelstein 7-X

A set of edge diagnostics and modelling has been developed for investigation of synergy between 3D edge physics and plasma-wall interactions on Wendelstein 7-X. A set of endoscopes has been designed for visible and ultraviolet spectroscopy and tomography of the plasma edge, along with infrared thermography of the divertor tiles. Two-dimensional profiles of impurities (e.g. He, C) will be measured by two endoscopes viewing the island divertor region in the plasma edge with a spatial resolution of < 2 mm. A multipurpose manipulator, which is used as the carrier either of the probe head for measuring the plasma edge profiles or of samples for plasma exposure studies, was installed at the outside midplane on W7-X in 2015. A poloidal correlation reflectometer has also been installed at W7-X. The system consists of an antenna array observing the propagation of turbulent phenomena in the mid-plane. The EMC3-EIRENE code package has been adapted for plasma edge transport in helium plasma at Wendelstein 7-X using a hybrid fluid–kinetic approach by enabling EMC3 to treat non-hydrogen isotopes and extending the usage of EIRENE features within EMC3-EIRENE.

Nengchao Wang | Olaf Neubauer | Wolfgang Biel | O. Marchuk | H. T. Lambertz | B. Schweer | U. Samm | M. Krychowiak | Oliver Schmitz | S. Brezinsek | P. Denner | P. Drews | F. Hasenbeck | M. Rack | Thomas Sunn Pedersen | R. König | A. Krämer-Flecken | Ch. Linsmeier | Detlev Reiter | J. Geiger | G. Satheeswaran | K. P. Hollfeld | Olaf Grulke | G. Czymek | D. Höschen | A. Charl | G. Offermanns | R. König | D. Reiter | O. Schmitz | S. Brezinsek | Y. Feng | C. Linsmeier | J. Geiger | T. Pedersen | P. Denner | M. Rack | O. Grulke | W. Biel | A. Charl | G. Czymek | P. Drews | F. Effenberg | Y. Gao | K. Hollfeld | D. Höschen | M. Knaup | A. Krämer-Flecken | M. Krychowiak | Y. Liang | O. Marchuk | O. Neubauer | D. Nicolai | G. Offermanns | G. Satheeswaran | B. Schweer | S. Sereda | J. Thomas | E. Wang | Y. Wei | U. Samm | Shaocheng Liu | P. Börner | Yasuhiro Suzuki | A. Terra | H. Lambertz | Nengchao Wang | F. Hasenbeck | Y. Feng | P. Börner | Y. Liang | Yasuhiro Suzuki | M. Knaup | Shaocheng Liu | Florian Effenberg | Y. Gao | Li Li | J. P. Thomas | E. Wang | Y. Wei | M. Dostal | S. Sereda | A.-C. Weger | Dirk Nicolai | Alexis Terra | Li Li | A.-C. Weger | M. Dostal

[1] J. Contributors,et al. A new radiation-hard endoscope for divertor spectroscopy on JET , 2013 .

[2] D. Nicolai,et al. A PCS7-based control and safety system for operation of the W7-X Multi-Purpose Manipulator facility , 2017 .

[3] Olaf Neubauer,et al. Diagnostic setup for investigation of plasma wall interactions at Wendelstein 7-X , 2015 .

[4] D. Reiter,et al. The EIRENE and B2-EIRENE Codes , 2005 .

[5] A. Hubera,et al. A new Radiation-hard Endoscope for Divertor Spectroscopy on JET , 2012 .

[6] S. Brezinsek,et al. Design and development of a LIBS system on linear plasma device PSI-2 for in situ real-time diagnostics of plasma-facing materials , 2017 .

[7] F. Sardei,et al. 3D fluid modelling of the edge plasma by means of a Monte Carlo technique , 1999 .

[8] G. Czymek,et al. Optical Instruments for Local Divertor Observation at Wendelstein 7-X , 2016 .

[9] R. Wolf,et al. Wendelstein 7-X Program—Demonstration of a Stellarator Option for Fusion Energy , 2016, IEEE Transactions on Plasma Science.

[10] Olaf Neubauer,et al. A multi-purpose manipulator system for W7-X as user facility for plasma edge investigation , 2017 .

[11] P. Denner,et al. A rotating directional probe for the measurements of fast ion losses and plasma rotation at Tokamak Experiment for Technology Oriented Research. , 2013, The Review of scientific instruments.

[12] R. Mcwhirter,et al. A Calculation of the Instantaneous Population Densities of the Excited Levels of Hydrogen-like Ions in a Plasma , 1963 .

[13] J. Contributors,et al. Mitigation of type-I ELMs with n = 2 fields on JET with ITER-like wall , 2013 .

[14] J. Geiger,et al. Investigation of turbulence rotation in limiter plasmas at W7-X with newly installed poloidal correlation reflectometer , 2017 .

[15] D. Reiter,et al. A fluid-kinetic approach for 3D plasma edge transport in He plasma , 2017 .

[16] Dorian Krause,et al. JURECA: General-purpose supercomputer at Jülich Supercomputing Centre , 2016 .

[17] Thomas Rummel,et al. Transition From Construction to Operation Phase of the Wendelstein 7-X Stellarator , 2014, IEEE Transactions on Plasma Science.

[18] A. Kirschner,et al. Simulation of the plasma-wall interaction in a tokamak with the Monte Carlo code ERO-TEXTOR , 2000 .

[19] T. Fujimoto. A collisional-radiative model for helium and its application to a discharge plasma , 1979 .

[20] V. Rohde,et al. Measurements of ion energies in the tokamak plasma boundary , 2011 .

[21] S. Brezinsek,et al. Time resolved imaging of laser induced ablation spectroscopy (LIAS) in TEXTOR and comparison with modeling , 2016 .

[22] Nengchao Wang,et al. Measurement of the Plasma Edge Profiles Using the Combined Probe on W7-X , 2016 .

[23] F. Sardei,et al. Island divertor experiments on the W7-AS stellarator , 2001 .