Simulations of divertor plasmas with inverse sheaths

Masline, R.; Smirnov, R. D.; Krasheninnikov, S. I.

doi:10.1063/5.0015995

Title: Simulations of divertor plasmas with inverse sheaths

Journal Article · Tue Sep 08 00:00:00 EDT 2020 · Physics of Plasmas

DOI:https://doi.org/10.1063/5.0015995· OSTI ID:1800219

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^[1]; Krasheninnikov, S. I. ^[1]

Univ. of California, San Diego, CA (United States)

The effect of strong electron emission from material surfaces has been proposed to form an “inverse sheath”: a region with a positive potential relative to the near-wall plasma which prevents the flow of ions to the wall [M. D. Campanell, “Negative plasma potential relative to electronemitting surfaces,” Phys. Rev. E. 88, 033103 (2013); M. D. Campanell and M. V. Umansky, “Strongly emitting surfaces unable to float below plasma potential,” Phys. Rev. Lett. 116, 1–5 (2016); M. D. Campanell and G. R. Johnson, “Thermionic cooling of the target plasma to a sub-ev temperature,” Phys. Rev. Lett. 122, 1–5 (2019)]. We assess the viability of this regime in a tokamak device using the 2D edge plasma transport code UEDGE [T. Rognlien et al., “A fully implicit, time dependent 2-D fluid code for modeling tokamak edge plasmas,” J. Nucl. Mater. 196–198, 347–351 (1992)]. Since the UEDGE code does not consider the sheath region directly, we apply boundary conditions at the divertor targets which emulate the physics of both “standard” and “inverse” sheath regimes [R. Masline et al., “Influence of the inverse sheath on divertor plasma performance in tokamak edge plasma simulations,” Contrib. Plasma Phys. 60, e201900097 (2020)]. Using these boundary conditions, we perform scoping studies to assess plasma parameters near the target by varying the density at the core-edge interface. We observe a smooth transition in the resultant profiles of plasma parameters for the standard sheath, and a bifurcation across the simulation set for plasmas with an inverse sheath. The cause of this bifurcation is assessed by performing the parameter scan both with and without impurity radiation; we observe that the bifurcation persists in both cases, indicating that this bifurcation is caused by plasma recombination.

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Research Organization:: Univ. of California, San Diego, CA (United States)

Sponsoring Organization:: USDOE Office of Science (SC)

Grant/Contract Number:: FG02-04ER54739

OSTI ID:: 1800219

Alternate ID(s):: OSTI ID: 1658642

Journal Information:: Physics of Plasmas, Vol. 27, Issue 9; ISSN 1070-664X

Publisher:: American Institute of Physics (AIP)Copyright Statement

Country of Publication:: United States

Language:: English

References (13)

Thermionic Cooling of the Target Plasma to a Sub-eV Temperature Campanell, M. D.; Johnson, G. R. Physical Review Letters, Vol. 122, Issue 1 https://doi.org/10.1103/PhysRevLett.122.015003	journal	January 2019
Strongly Emitting Surfaces Unable to Float below Plasma Potential Campanell, M. D.; Umansky, M. V. Physical Review Letters, Vol. 116, Issue 8 https://doi.org/10.1103/PhysRevLett.116.085003	journal	February 2016
Negative plasma potential relative to electron-emitting surfaces Campanell, M. D. Physical Review E, Vol. 88, Issue 3 https://doi.org/10.1103/PhysRevE.88.033103	journal	September 2013
Heat flow through a Langmuir sheath in the presence of electron emission Hobbs, G. D.; Wesson, J. A. Plasma Physics, Vol. 9, Issue 1 https://doi.org/10.1088/0032-1028/9/1/410	journal	January 1967
Influence of the inverse sheath on divertor plasma performance in tokamak edge plasma simulations Masline, Rebecca; Smirnov, Roman D.; Krasheninnikov, Sergei I. Contributions to Plasma Physics https://doi.org/10.1002/ctpp.201900097	journal	December 2019
Review of MARFE phenomena in tokamaks Lipschultz, B. Journal of Nuclear Materials, Vol. 145-147 https://doi.org/10.1016/0022-3115(87)90306-0	journal	February 1987
The Plasma Boundary of Magnetic Fusion Devices Stangeby, Peter C. Plasma Physics and Controlled Fusion, Vol. 43, Issue 2 https://doi.org/10.1887/0750305592	book	January 2000
Physics of ultimate detachment of a tokamak divertor plasma Krasheninnikov, S. I.; Kukushkin, A. S. Journal of Plasma Physics, Vol. 83, Issue 5 https://doi.org/10.1017/S0022377817000654	journal	September 2017
$E \times B$ Flux Driven Detachment Bifurcation in the DIII-D Tokamak Jaervinen, A. E.; Allen, S. L.; Eldon, D. Physical Review Letters, Vol. 121, Issue 7 https://doi.org/10.1103/PhysRevLett.121.075001	journal	August 2018
A fully implicit, time dependent 2-D fluid code for modeling tokamak edge plasmas Rognlien, T. D.; Milovich, J. L.; Rensink, M. E. Journal of Nuclear Materials, Vol. 196-198 https://doi.org/10.1016/S0022-3115(06)80058-9	journal	December 1992
Stability of divertor detachment Krasheninnikov, S. I.; Kukushkin, A. S.; Pshenov, A. A. Nuclear Materials and Energy, Vol. 12 https://doi.org/10.1016/j.nme.2017.01.022	journal	August 2017
On thermionic emission from plasma-facing components in tokamak-relevant conditions Komm, M.; Ratynskaia, S.; Tolias, P. Plasma Physics and Controlled Fusion, Vol. 59, Issue 9 https://doi.org/10.1088/1361-6587/aa78c4	journal	July 2017
Plasma-material interactions in current tokamaks and their implications for next step fusion reactors Federici, G.; Skinner, C. H.; Brooks, J. N. Nuclear Fusion, Vol. 41, Issue 12 https://doi.org/10.1088/0029-5515/41/12/218	journal	December 2001

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