Active Beam Spectroscopy (Evaluation of Data and Supporting Software) Acknowledgement: CXRS groups at JET, TEXTOR, Tore Supra, ASDEX-UG and members of.

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Active Beam Spectroscopy (Evaluation of Data and Supporting Software) Acknowledgement: CXRS groups at JET, TEXTOR, Tore Supra, ASDEX-UG and members of the ITPA expert group on Active Beam Spectroscopy Manfred von Hellermann FOM Institute for Plasma Physics Rijnhuizen, NL Seminar-II Institute for Plasma Physics Academy of Sciences Hefei, China May, 6, 2007

M. von Hellermann Outline  Basic concepts of quantitative spectroscopy  Spectral Analysis code KS4FIT ( KS4FIT_JAVA, CXSFIT)  CHEAP  Simulation of CXRS and BES Spectra

M. von Hellermann

CX spectral fitting

M. von Hellermann Spectral Analysis Code KS4FIT developed at JET ( 1986 to 1999) The KS4FIT concept: Approximation of observed spectra by Active (beam induced) and non-active features. Active features may be Gaussian- shaped or modelled synthetic spectra Atomic modelling of each feature to achieve a)best possible initial estimates for non- linear least square routine b) unique identification of each component

M. von Hellermann Multi-machine (and multi spectrometer) access: JET TEXTOR Tore Supra Wega ASDEX-UG Data input: Raw Data Web Umbrella MDS plus Local Files NetCDF Data output: Processed Data U-file Local Files JET-PPF NetCDF Local Files: Geometry Calibration Dispersion Instrument Function

M. von Hellermann Technical aspects: Spectral Fit code available on Linux platform presently 3 different versions coexist: KS4FIT on JET ( Fortran only) CXSFIT on JET, ASDEX-Upgrade, KS4FIt Fortran core with interactive IDL control shell, to be distributed as ADAS package KS4FIT_JAVA on TEXTOR, W7-X, Tore-Supra and JET KS4FIT Fortran core with JAVA shell Local output formats are machine specific: PPF (JET), U-File (TEXTOR), Shot-File (AUG), MDS-Plus possible Local geometry, calibration, dispersion and instrument function files

M. von Hellermann Universal physics oriented features: Standard setting files for the main low-Z CX transitions a)Carbon b)Helium c)Beryllium d)Neon e)Argon f)Nitrogen g)Oxygen h)Hydrogen, Deuterium, Tritium i)And twin CX spectra

M. von Hellermann a)Physics wavelength units b)Physics descriptions of components c)Constant parameters d)Coupled parameters e)Synthetic pedestal shapes f)Parameter estimate optimisation 1) adjacent tracks 2) previous frames 3) pcx approximation 4) amplitude updates 5) input from other CX spectra h)Suppressed components scenario i)Parameter constraints j)Documentation of settings KS4FIT features

M. von Hellermann

Schematic presentation of PCX emission process. The neutral density profile is the least known ingredient of the model. Pragmatic reconstruction of PCX feature by ACX close to separatrix ‘Modelling of Passive Charge Exchange Emission and Neutral Background Density Deductions in JET’ M. Tunklev, P. Breger, K. Günther, M. von Hellermann, R. König, M. O’Mullane and K-D. Zastrow Plasma Physics and Controlled Fusion’, 41, (1999)

M. von Hellermann

Pragmatic treatment of non-gaussian PCX feature

M. von Hellermann

He-beam injection at JET 1991

M. von Hellermann

CX nitrogen spectrum at JET

M. von Hellermann

JET CVI spectrum in the presence of Argon ( Radiation cooling)

M. von Hellermann Role of edge lines on spectral wings

M. von Hellermann

TEXTOR hydrogen scan experiment

M. von Hellermann JET DT pulse

M. von Hellermann CHEAP Charge Exchange Analysis Package Main function: a) Mapping of plasma parameters on flux coordinates b)Self consistent calculation of local impurity densities from CX intensities, atomic emission rates and local beam densities c) Beam-target interaction physics d) Global consistency checks

M. von Hellermann CHEAP continued CHEAP exists presently in 3 versions: a)At JET: LINUX, Fortran 77 and local copies of ADAS files b) At TEXTOR and Tore Supra: Linux, Matlab data input routines and MEX fortran files, local copies of ADAS files c) At ASDEX: Linux, IDL

Thermal energy Ion pressure

JET DT High Fusion Power pulse #42976

Plasma dilution Error in dilution factor

M. von Hellermann Bnene nznz TeTe TiTi  EbEb PbPb ADAS nene nznz  W th n fast v crit  slow W fast Y thth

M. von Hellermann W-dia, JET Experimental Campaign 1997

M. von Hellermann Ralf König 1997

M. von Hellermann Simulation of Spectra  Creation of synthetic spectra based on plasma environment and atomic data.  Active features (thermal and fast ions)  Passive features (continuum, edge lines, PCX)  Sensitivity analysis for parameter retrieval  Optimization of instruments  Optimization of neutral beam specification

M. von Hellermann MATLAB simulation package includes presently: 1)ITER 2)JET 3)TEXTOR 4)ASDEX 5)Tore Supra 6)W7-X 7)HL-2A 8)HT-7 9)EAST 10)SST

M. von Hellermann Simulation Structure: 1)Use CAD data for geometry a) first-mirror coordinates b) DNB injection coordinates c) Torus geometry 2)Use DNB specifications 3) Modelling of periscope imaging properties 4) Use Spectrometer and CCD specifications 5) CHEAP modelling of neutral beam stopping (ADAS) 6)CHEAP modelling of DNB excited population (ADAS) 7)CXRS and BES emission rates (ADAS) 8)Modelling of q-profile and pitch angle 9)Modelling of continuum radiation 10) Modelling of neutral density and PCX emissivity 11)Creation of Non-Thermal Synthetic spectra 12) Modelling of DNB modulation effects 13) Assessment of noise performance 14)Assessment of parameter errors

M. von Hellermann Summary remarks  Three main tools for the evaluation of active spectra have been developed  Key ingredients are advanced atomic modelling of beam plasma interaction processes  The modelling includes also background spectral features such as free-free continuum radiation and passive line emission at the plasma edge  A comprehensive documentation of background lines allows the analysis of complex spectra  Non-thermal features ( slowing-down etc.) are included