PSI research in the ITER divertor parameter range at the FOM PSI-lab

J. Westerhout; W.R. Koppers; W.A.J. Vijvers; R.S. Al; S. Brezinsek; S. Brons; H.J.N. Eck, van; R.A.H. Engeln; B. Groot, de; R. Koch; H.J. Meiden, van der; M.P. Nuijten; V. Philipps; M.J. Pol, van de; P.R. Prins; U. Samm; J. Scholten; D.C. Schram; B. Schweer; P.H.M. Smeets; D.G. Whyte; E. Zoethout; A.W. Kleyn; W.J. Goedheer; N.J. Lopes Cardozo; G.J. Rooij, van

doi:10.1088/0031-8949/2007/T128/004

PSI research in the ITER divertor parameter range at the FOM PSI-lab

J. Westerhout
, W.R. Koppers
, W.A.J. Vijvers
, R.S. Al
, S. Brezinsek
, S. Brons
, H.J.N. Eck, van
, R.A.H. Engeln
, B. Groot, de
, R. Koch
, H.J. Meiden, van der
, M.P. Nuijten
, V. Philipps
, M.J. Pol, van de
, P.R. Prins
, U. Samm
, J. Scholten
, D.C. Schram
, B. Schweer
, P.H.M. Smeets

D.G. Whyte, E. Zoethout, A.W. Kleyn, W.J. Goedheer, N.J. Lopes Cardozo, G.J. Rooij, van

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

40 Citations (Scopus)

1 Downloads (Pure)

Abstract

FOM-Rijnhuizen is building, in cooperation with its Trilateral Euregio Cluster (TEC) partners, a PSI-laboratory to study plasma surface interaction (PSI) under extreme, ITER relevant plasma conditions. The largest linear plasma generator of PSI-lab is Magnum-PSI, and is designed to deliver up to 10 MW m-2 power over a 10 cm diameter hydrogen plasma beam with an electron density (ne) up to 1021 m-3 and electron-temperature (Te) between 1–5 eV. Magnum-PSI is presently under construction and its predesign is presented. Its forerunner is Pilot-PSI, in which record plasma parameters of ne=4×1021 m-3 at Te=2 eV in a ~1 cm wide hydrogen beam confined by a magnetic field (B) =1.6 T were measured at 40 mm downstream the source nozzle. At 17 mm in front of a target (located at 0.56 m distance from the source nozzle), ne>1021 m-3 and Te= 4 eV have been demonstrated. Initial experiments on exposing fine-grain carbon samples are presented that showed up to 20 µm s-1 erosion as a demonstration of the extreme plasma conditions. Spectroscopy was applied to compare chemical erosion yields for flux densities up to 5.0×1024 m-2 s-1.

Original language	English
Pages (from-to)	18-22
Number of pages	5
Journal	Physica Scripta
Volume	2007
Issue number	T128
DOIs	https://doi.org/10.1088/0031-8949/2007/T128/004
Publication status	Published - 2007

Access to Document

10.1088/0031-8949/2007/T128/004

Cite this

Westerhout, J., Koppers, W. R., Vijvers, W. A. J., Al, R. S., Brezinsek, S., Brons, S., Eck, van, H. J. N., Engeln, R. A. H., Groot, de, B., Koch, R., Meiden, van der, H. J., Nuijten, M. P., Philipps, V., Pol, van de, M. J., Prins, P. R., Samm, U., Scholten, J., Schram, D. C., Schweer, B., ... Rooij, van, G. J. (2007). PSI research in the ITER divertor parameter range at the FOM PSI-lab. Physica Scripta, 2007(T128), 18-22. https://doi.org/10.1088/0031-8949/2007/T128/004

@article{1f1c05f13e1e4d33a3e7702fdd99f854,

title = "PSI research in the ITER divertor parameter range at the FOM PSI-lab",

abstract = "FOM-Rijnhuizen is building, in cooperation with its Trilateral Euregio Cluster (TEC) partners, a PSI-laboratory to study plasma surface interaction (PSI) under extreme, ITER relevant plasma conditions. The largest linear plasma generator of PSI-lab is Magnum-PSI, and is designed to deliver up to 10 MW m-2 power over a 10 cm diameter hydrogen plasma beam with an electron density (ne) up to 1021 m-3 and electron-temperature (Te) between 1–5 eV. Magnum-PSI is presently under construction and its predesign is presented. Its forerunner is Pilot-PSI, in which record plasma parameters of ne=4×1021 m-3 at Te=2 eV in a \textasciitilde{}1 cm wide hydrogen beam confined by a magnetic field (B) =1.6 T were measured at 40 mm downstream the source nozzle. At 17 mm in front of a target (located at 0.56 m distance from the source nozzle), ne>1021 m-3 and Te= 4 eV have been demonstrated. Initial experiments on exposing fine-grain carbon samples are presented that showed up to 20 µm s-1 erosion as a demonstration of the extreme plasma conditions. Spectroscopy was applied to compare chemical erosion yields for flux densities up to 5.0×1024 m-2 s-1.",

author = "J. Westerhout and W.R. Koppers and W.A.J. Vijvers and R.S. Al and S. Brezinsek and S. Brons and \{Eck, van\}, H.J.N. and R.A.H. Engeln and \{Groot, de\}, B. and R. Koch and \{Meiden, van der\}, H.J. and M.P. Nuijten and V. Philipps and \{Pol, van de\}, M.J. and P.R. Prins and U. Samm and J. Scholten and D.C. Schram and B. Schweer and P.H.M. Smeets and D.G. Whyte and E. Zoethout and A.W. Kleyn and W.J. Goedheer and \{Lopes Cardozo\}, N.J. and \{Rooij, van\}, G.J.",

year = "2007",

doi = "10.1088/0031-8949/2007/T128/004",

language = "English",

volume = "2007",

pages = "18--22",

journal = "Physica Scripta",

issn = "0031-8949",

publisher = "Institute of Physics",

number = "T128",

}

Westerhout, J, Koppers, WR, Vijvers, WAJ, Al, RS, Brezinsek, S, Brons, S, Eck, van, HJN, Engeln, RAH, Groot, de, B, Koch, R, Meiden, van der, HJ, Nuijten, MP, Philipps, V, Pol, van de, MJ, Prins, PR, Samm, U, Scholten, J, Schram, DC, Schweer, B, Smeets, PHM, Whyte, DG, Zoethout, E, Kleyn, AW, Goedheer, WJ, Lopes Cardozo, NJ & Rooij, van, GJ 2007, 'PSI research in the ITER divertor parameter range at the FOM PSI-lab', Physica Scripta, vol. 2007, no. T128, pp. 18-22. https://doi.org/10.1088/0031-8949/2007/T128/004

TY - JOUR

T1 - PSI research in the ITER divertor parameter range at the FOM PSI-lab

AU - Westerhout, J.

AU - Koppers, W.R.

AU - Vijvers, W.A.J.

AU - Al, R.S.

AU - Brezinsek, S.

AU - Brons, S.

AU - Eck, van, H.J.N.

AU - Engeln, R.A.H.

AU - Groot, de, B.

AU - Koch, R.

AU - Meiden, van der, H.J.

AU - Nuijten, M.P.

AU - Philipps, V.

AU - Pol, van de, M.J.

AU - Prins, P.R.

AU - Samm, U.

AU - Scholten, J.

AU - Schram, D.C.

AU - Schweer, B.

AU - Smeets, P.H.M.

AU - Whyte, D.G.

AU - Zoethout, E.

AU - Kleyn, A.W.

AU - Goedheer, W.J.

AU - Lopes Cardozo, N.J.

AU - Rooij, van, G.J.

PY - 2007

Y1 - 2007

N2 - FOM-Rijnhuizen is building, in cooperation with its Trilateral Euregio Cluster (TEC) partners, a PSI-laboratory to study plasma surface interaction (PSI) under extreme, ITER relevant plasma conditions. The largest linear plasma generator of PSI-lab is Magnum-PSI, and is designed to deliver up to 10 MW m-2 power over a 10 cm diameter hydrogen plasma beam with an electron density (ne) up to 1021 m-3 and electron-temperature (Te) between 1–5 eV. Magnum-PSI is presently under construction and its predesign is presented. Its forerunner is Pilot-PSI, in which record plasma parameters of ne=4×1021 m-3 at Te=2 eV in a ~1 cm wide hydrogen beam confined by a magnetic field (B) =1.6 T were measured at 40 mm downstream the source nozzle. At 17 mm in front of a target (located at 0.56 m distance from the source nozzle), ne>1021 m-3 and Te= 4 eV have been demonstrated. Initial experiments on exposing fine-grain carbon samples are presented that showed up to 20 µm s-1 erosion as a demonstration of the extreme plasma conditions. Spectroscopy was applied to compare chemical erosion yields for flux densities up to 5.0×1024 m-2 s-1.

AB - FOM-Rijnhuizen is building, in cooperation with its Trilateral Euregio Cluster (TEC) partners, a PSI-laboratory to study plasma surface interaction (PSI) under extreme, ITER relevant plasma conditions. The largest linear plasma generator of PSI-lab is Magnum-PSI, and is designed to deliver up to 10 MW m-2 power over a 10 cm diameter hydrogen plasma beam with an electron density (ne) up to 1021 m-3 and electron-temperature (Te) between 1–5 eV. Magnum-PSI is presently under construction and its predesign is presented. Its forerunner is Pilot-PSI, in which record plasma parameters of ne=4×1021 m-3 at Te=2 eV in a ~1 cm wide hydrogen beam confined by a magnetic field (B) =1.6 T were measured at 40 mm downstream the source nozzle. At 17 mm in front of a target (located at 0.56 m distance from the source nozzle), ne>1021 m-3 and Te= 4 eV have been demonstrated. Initial experiments on exposing fine-grain carbon samples are presented that showed up to 20 µm s-1 erosion as a demonstration of the extreme plasma conditions. Spectroscopy was applied to compare chemical erosion yields for flux densities up to 5.0×1024 m-2 s-1.

U2 - 10.1088/0031-8949/2007/T128/004

DO - 10.1088/0031-8949/2007/T128/004

M3 - Article

SN - 0031-8949

VL - 2007

SP - 18

EP - 22

JO - Physica Scripta

JF - Physica Scripta

IS - T128

ER -

PSI research in the ITER divertor parameter range at the FOM PSI-lab

Abstract

Access to Document

Fingerprint

Cite this