Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D

S. L. Allen; N. H. Brooks; R. Bastasz; J. Boedo; J. N. Brooks; J. W. Cuthbertson; T. E. Evans; M. E. Fenstermacher; D. N. Hill; D. L. Hillis; J. Hogan; A. W. Hyatt; R. C. Isler; G. L. Jackson; T. Jernigan; C. J. Lasnier; R. Lehmer; A. W. Leonard; M. A. Mahdavi; R. Maingi; W. H. Meyer; P. K. Mioduszewski; R. A. Moyer; D. G. Nilson; L. W. Owen; T. W. Petrie; G. D. Porter; M. E. Rensink; M. J. Schaffer; J. Smith; G. M. Staebler; R. D. Stambaugh; D. M. Thomas; M. R. Wade; W. R. Wampler; J. G. Watkins; W. P. West; D. G. Whyte; N. Wolf; C. P.C. Wong; R. D. Wood

doi:10.1088/0029-5515/39/11Y/348

Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D

S. L. Allen, N. H. Brooks, R. Bastasz, J. Boedo, J. N. Brooks, J. W. Cuthbertson, T. E. Evans, M. E. Fenstermacher, D. N. Hill, D. L. Hillis, J. Hogan, A. W. Hyatt, R. C. Isler, G. L. Jackson, T. Jernigan, C. J. Lasnier, R. Lehmer, A. W. Leonard, M. A. Mahdavi, R. MaingiW. H. Meyer, P. K. Mioduszewski, R. A. Moyer, D. G. Nilson, L. W. Owen, T. W. Petrie, G. D. Porter, M. E. Rensink, M. J. Schaffer, J. Smith, G. M. Staebler, R. D. Stambaugh, D. M. Thomas, M. R. Wade, W. R. Wampler, J. G. Watkins, W. P. West, D. G. Whyte, N. Wolf, C. P.C. Wong, R. D. Wood

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

Recent progress towards an increased understanding of the physical processes in the divertor and scrape-off layer (SOL) plasmas in DIII-D has been made possible by a combination of new diagnostics, improved computational models and changes in divertor geometry. The work focused primarily on ELMing H mode discharges. The physics of partially detached divertor plasmas, with divertor heat flux reduction by divertor radiation enhancement using D₂ puffing, was studied in two dimensions, and a model of the heat and particle transport was developed that includes conduction, convection, ionization, recombination and flows. Plasma and impurity particle flows were measured with Mach probes and spectroscopy and compared with the UEDGE model. The model now includes self-consistent calculations of carbon impurities. Impurity radiation was increased in the divertor and SOL with `puff and pump' techniques using SOL D₂ puffing, divertor cryopumping and argon puffing. The important physical processes in plasma-wall interactions were examined with a DiMES (divertor material evaluation system) probe, plasma characterization near the divertor plate and the REDEP code. Experiments comparing single null plasma operation in baffled and open divertors demonstrated a change in the edge plasma profiles. These results are consistent with a reduction in the core ionization source calculated with UEDGE. Divertor particle control in ELMing H mode with pumping and baffling resulted in a reduction in H mode core densities to n_e/n_Gr≈0.25 (with n_Gr the Greenwald density). Divertor particle exhaust and heat flux were studied as the plasma shape was varied from a lower single null to a balanced double null, and finally to an upper single null.

Original language	English (US)
Pages (from-to)	2015-2023
Number of pages	9
Journal	Nuclear Fusion
Volume	39
Issue number	Special Issu
DOIs	https://doi.org/10.1088/0029-5515/39/11Y/348
State	Published - 1999
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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10.1088/0029-5515/39/11Y/348

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Allen, S. L., Brooks, N. H., Bastasz, R., Boedo, J., Brooks, J. N., Cuthbertson, J. W., Evans, T. E., Fenstermacher, M. E., Hill, D. N., Hillis, D. L., Hogan, J., Hyatt, A. W., Isler, R. C., Jackson, G. L., Jernigan, T., Lasnier, C. J., Lehmer, R., Leonard, A. W., Mahdavi, M. A., ... Wood, R. D. (1999). Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D. Nuclear Fusion, 39(Special Issu), 2015-2023. https://doi.org/10.1088/0029-5515/39/11Y/348

@article{21092947889f438a826260c2f544e460,

title = "Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D",

abstract = "Recent progress towards an increased understanding of the physical processes in the divertor and scrape-off layer (SOL) plasmas in DIII-D has been made possible by a combination of new diagnostics, improved computational models and changes in divertor geometry. The work focused primarily on ELMing H mode discharges. The physics of partially detached divertor plasmas, with divertor heat flux reduction by divertor radiation enhancement using D2 puffing, was studied in two dimensions, and a model of the heat and particle transport was developed that includes conduction, convection, ionization, recombination and flows. Plasma and impurity particle flows were measured with Mach probes and spectroscopy and compared with the UEDGE model. The model now includes self-consistent calculations of carbon impurities. Impurity radiation was increased in the divertor and SOL with `puff and pump' techniques using SOL D2 puffing, divertor cryopumping and argon puffing. The important physical processes in plasma-wall interactions were examined with a DiMES (divertor material evaluation system) probe, plasma characterization near the divertor plate and the REDEP code. Experiments comparing single null plasma operation in baffled and open divertors demonstrated a change in the edge plasma profiles. These results are consistent with a reduction in the core ionization source calculated with UEDGE. Divertor particle control in ELMing H mode with pumping and baffling resulted in a reduction in H mode core densities to ne/nGr≈0.25 (with nGr the Greenwald density). Divertor particle exhaust and heat flux were studied as the plasma shape was varied from a lower single null to a balanced double null, and finally to an upper single null.",

author = "Allen, \{S. L.\} and Brooks, \{N. H.\} and R. Bastasz and J. Boedo and Brooks, \{J. N.\} and Cuthbertson, \{J. W.\} and Evans, \{T. E.\} and Fenstermacher, \{M. E.\} and Hill, \{D. N.\} and Hillis, \{D. L.\} and J. Hogan and Hyatt, \{A. W.\} and Isler, \{R. C.\} and Jackson, \{G. L.\} and T. Jernigan and Lasnier, \{C. J.\} and R. Lehmer and Leonard, \{A. W.\} and Mahdavi, \{M. A.\} and R. Maingi and Meyer, \{W. H.\} and Mioduszewski, \{P. K.\} and Moyer, \{R. A.\} and Nilson, \{D. G.\} and Owen, \{L. W.\} and Petrie, \{T. W.\} and Porter, \{G. D.\} and Rensink, \{M. E.\} and Schaffer, \{M. J.\} and J. Smith and Staebler, \{G. M.\} and Stambaugh, \{R. D.\} and Thomas, \{D. M.\} and Wade, \{M. R.\} and Wampler, \{W. R.\} and Watkins, \{J. G.\} and West, \{W. P.\} and Whyte, \{D. G.\} and N. Wolf and Wong, \{C. P.C.\} and Wood, \{R. D.\}",

year = "1999",

doi = "10.1088/0029-5515/39/11Y/348",

language = "English (US)",

volume = "39",

pages = "2015--2023",

journal = "Nuclear Fusion",

issn = "0029-5515",

publisher = "IOP Publishing Ltd.",

number = "Special Issu",

}

Allen, SL, Brooks, NH, Bastasz, R, Boedo, J, Brooks, JN, Cuthbertson, JW, Evans, TE, Fenstermacher, ME, Hill, DN, Hillis, DL, Hogan, J, Hyatt, AW, Isler, RC, Jackson, GL, Jernigan, T, Lasnier, CJ, Lehmer, R, Leonard, AW, Mahdavi, MA, Maingi, R, Meyer, WH, Mioduszewski, PK, Moyer, RA, Nilson, DG, Owen, LW, Petrie, TW, Porter, GD, Rensink, ME, Schaffer, MJ, Smith, J, Staebler, GM, Stambaugh, RD, Thomas, DM, Wade, MR, Wampler, WR, Watkins, JG, West, WP, Whyte, DG, Wolf, N, Wong, CPC & Wood, RD 1999, 'Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D', Nuclear Fusion, vol. 39, no. Special Issu, pp. 2015-2023. https://doi.org/10.1088/0029-5515/39/11Y/348

TY - JOUR

T1 - Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D

AU - Allen, S. L.

AU - Brooks, N. H.

AU - Bastasz, R.

AU - Boedo, J.

AU - Brooks, J. N.

AU - Cuthbertson, J. W.

AU - Evans, T. E.

AU - Fenstermacher, M. E.

AU - Hill, D. N.

AU - Hillis, D. L.

AU - Hogan, J.

AU - Hyatt, A. W.

AU - Isler, R. C.

AU - Jackson, G. L.

AU - Jernigan, T.

AU - Lasnier, C. J.

AU - Lehmer, R.

AU - Leonard, A. W.

AU - Mahdavi, M. A.

AU - Maingi, R.

AU - Meyer, W. H.

AU - Mioduszewski, P. K.

AU - Moyer, R. A.

AU - Nilson, D. G.

AU - Owen, L. W.

AU - Petrie, T. W.

AU - Porter, G. D.

AU - Rensink, M. E.

AU - Schaffer, M. J.

AU - Smith, J.

AU - Staebler, G. M.

AU - Stambaugh, R. D.

AU - Thomas, D. M.

AU - Wade, M. R.

AU - Wampler, W. R.

AU - Watkins, J. G.

AU - West, W. P.

AU - Whyte, D. G.

AU - Wolf, N.

AU - Wong, C. P.C.

AU - Wood, R. D.

PY - 1999

Y1 - 1999

N2 - Recent progress towards an increased understanding of the physical processes in the divertor and scrape-off layer (SOL) plasmas in DIII-D has been made possible by a combination of new diagnostics, improved computational models and changes in divertor geometry. The work focused primarily on ELMing H mode discharges. The physics of partially detached divertor plasmas, with divertor heat flux reduction by divertor radiation enhancement using D2 puffing, was studied in two dimensions, and a model of the heat and particle transport was developed that includes conduction, convection, ionization, recombination and flows. Plasma and impurity particle flows were measured with Mach probes and spectroscopy and compared with the UEDGE model. The model now includes self-consistent calculations of carbon impurities. Impurity radiation was increased in the divertor and SOL with `puff and pump' techniques using SOL D2 puffing, divertor cryopumping and argon puffing. The important physical processes in plasma-wall interactions were examined with a DiMES (divertor material evaluation system) probe, plasma characterization near the divertor plate and the REDEP code. Experiments comparing single null plasma operation in baffled and open divertors demonstrated a change in the edge plasma profiles. These results are consistent with a reduction in the core ionization source calculated with UEDGE. Divertor particle control in ELMing H mode with pumping and baffling resulted in a reduction in H mode core densities to ne/nGr≈0.25 (with nGr the Greenwald density). Divertor particle exhaust and heat flux were studied as the plasma shape was varied from a lower single null to a balanced double null, and finally to an upper single null.

AB - Recent progress towards an increased understanding of the physical processes in the divertor and scrape-off layer (SOL) plasmas in DIII-D has been made possible by a combination of new diagnostics, improved computational models and changes in divertor geometry. The work focused primarily on ELMing H mode discharges. The physics of partially detached divertor plasmas, with divertor heat flux reduction by divertor radiation enhancement using D2 puffing, was studied in two dimensions, and a model of the heat and particle transport was developed that includes conduction, convection, ionization, recombination and flows. Plasma and impurity particle flows were measured with Mach probes and spectroscopy and compared with the UEDGE model. The model now includes self-consistent calculations of carbon impurities. Impurity radiation was increased in the divertor and SOL with `puff and pump' techniques using SOL D2 puffing, divertor cryopumping and argon puffing. The important physical processes in plasma-wall interactions were examined with a DiMES (divertor material evaluation system) probe, plasma characterization near the divertor plate and the REDEP code. Experiments comparing single null plasma operation in baffled and open divertors demonstrated a change in the edge plasma profiles. These results are consistent with a reduction in the core ionization source calculated with UEDGE. Divertor particle control in ELMing H mode with pumping and baffling resulted in a reduction in H mode core densities to ne/nGr≈0.25 (with nGr the Greenwald density). Divertor particle exhaust and heat flux were studied as the plasma shape was varied from a lower single null to a balanced double null, and finally to an upper single null.

UR - https://www.scopus.com/pages/publications/12944332068

UR - https://www.scopus.com/inward/citedby.url?scp=12944332068&partnerID=8YFLogxK

U2 - 10.1088/0029-5515/39/11Y/348

DO - 10.1088/0029-5515/39/11Y/348

M3 - Article

AN - SCOPUS:12944332068

SN - 0029-5515

VL - 39

SP - 2015

EP - 2023

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - Special Issu

ER -

Radiative divertor and scrape-off layer experiments in open and baffled divertors on DIII-D

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