Differences in the H-mode pedestal width of temperature and density

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Differences in the H-mode pedestal width of temperature and density

Schneider, Philip A. ...

A pedestal database was built using data from type-I ELMy H-modes of ASDEX Upgrade, DIII-D and JET. ELM synchronized pedestal data were analysed with the two-line method. The two-line method is a ... bilinear fit which shows better reproducibility of pedestal parameters than a modified hyperbolic tangent fit. This was tested with simulated and experimental data. The influence of the equilibrium reconstruction on pedestal parameters was investigated with sophisticated reconstructions from CLISTE and EFIT including edge kinetic profiles. No systematic deviation between the codes could be observed. The flux coordinate system is influenced by machine size, poloidal field and plasma shape. This will change the representation of the width in different coordinates, in particular, the two normalized coordinates N and r/a show a very different dependence on the plasma shape. The scalings derived for the pedestal width, , of all machines suggest a different scaling for the electron temperature and the electron density. Both cases show similar dependence with machine size, poloidal magnetic field and pedestal electron temperature and density. The influence of ion temperature and toroidal magnetic field is different on each of and . In dimensionless form the density pedestal width in N scales with , the temperature pedestal width with . Both widths also show a strong correlation with the plasma shape. The shape dependence originates from the coordinate transformation and is not visible in real space. The presented scalings predict that in ITER the temperature pedestal will be appreciably wider than the density pedestal

Source: Plasma physics and controlled fusion. - ISSN 0741-3335 (Article Number 105009, Iss. 10, Vol. 54, 2012, 20 str.)

Type of material - article, component part

Publish date - 2012

Language - english

COBISS.SI-ID - 26291495

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Topics
jedrska fizika | fizika plazme | tokamak

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source: Plasma physics and controlled fusion. - ISSN 0741-3335 (Article Number 105009, Iss. 10, Vol. 54, 2012, 20 str.)

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Year	Impact factor		Edition		Category		Classification
Year	JCR	SNIP	JCR	SNIP	JCR	SNIP	JCR	SNIP

Links to authors' personal bibliographies	Links to information on researchers in the SICRIS system
Schneider, Philip A.
Wolfrum, E.
Groebner, R. J.
Lengar, Igor	19167
Snoj, Luka, 1981-	27819
Trkov, Andrej	08557
Žefran, Bojan	15742

Source: Personal bibliographies and: SICRIS

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