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- aggregation classification "C3".
- aggregation creator B57652.
- aggregation creator B57653.
- aggregation creator B57654.
- aggregation creator person.
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- aggregation date "2006".
- aggregation format "application/pdf".
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- aggregation language "eng".
- aggregation rights "I have retained and own the full copyright for this publication".
- aggregation subject "Science General".
- aggregation title "Integrated bayesian estimation of Zeff on TEXTOR from Bremsstrahlung and CX Impurity density measurements".
- aggregation abstract "In a nuclear fusion experiment, the concept of an Integrated Data Analysis (IDA) allows the consistent estimation of plasma parameters from heterogeneous data sets [1]. Here, the determination of the ion effective charge (Zeff ), a critical local measure of impurity concentration, is considered. Several diagnostic methods exist for the determination of Zeff , but the results are in general not in agreement. Moreover, so far none of the available methods has provided a Zeff estimate that is reliable over the entire plasma cross-section, which is at present a real challenge. In this work, the problem of Zeff estimation is approached from the perspective of IDA, in the framework of Bayesian probability theory. The ultimate goal is the estimation of a full Zeff profile that is consistent both with measured bremsstrahlung emissivities, as well as individual impurity spectral line intensities obtained from Charge Exchange Spectroscopy (CXS). We present an overview of the various uncertainties that enter the calculation of a Zeff profile from bremsstrahlung data on the one hand, and line intensity data on the other hand. These appear at several levels, including the measurement process itself (together with independent electron density and temperature measurements), the inversion procedure (including knowledge of the magnetic equilibrium), the atomic data, the diagnostic calibrations, etc. We discuss a simple Bayesian model permitting the estimation of a central value for Zeff and the electron density ne on TEXTOR from bremsstrahlung emissivity measurements in the visible, and carbon densities derived from CXS. Both the central Zeff and ne are sampled using an MCMC algorithm. Extensions of the model to a full Bayesian analysis, incorporating all critical measurement and model uncertainties, are examined. Relevance to ITER through the pilot active beam experiment on TEXTOR is discussed. References: [1] R. Fischer and A. Dinklage, Rev. Sci. Instrum. 75, 4237 (2004).".
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