X-ray tomography on the TCV tokamak

Anton, M.; Weisen, H.; Dutch, M.J.; Linden, Wolfgang von der; Bühlmann, Félix; Chavan, R.; Marlétaz, B.; Marmillod, P.; Paris, P.

doi:10.1088/0741-3335/38/11/001

Cited by 214 publications

(175 citation statements)

References 27 publications

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“…Several inversion methods were tested on arbitrary signals and on ghost images, having in mind future analyses on non-coherent modes using an upgraded tomography set-up being installed on Mistral. Among zero, first and second order, minimum Fisher information and SVD regularisations 19 , the second order spatial derivative proved to have the most consistent results and a low sensitivity to noise in our case. Figure 4 shows a ghost image (left), its discretisation (top-right) and the tomography result associated (bottom-right).…”

Section: Mono-sensor Tomography Set-upsupporting

confidence: 62%

Characterisation of coherent rotating modes in a magnetised plasma column using a mono-sensor tomography diagnostic

et al. 2016

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. Characterisation of coherent rotating modes in a magnetised plasma column using a mono-sensor tomography diagnostic. 2016. Characterisation of coherent rotating modes in a magnetised plasma column using a mono-sensor tomography diagnostic In this paper we report on an original tomographic diagnostic using a single sensor on a magnetized plasma column. The experimental set-up and the numerical inversion method used to interpret the data are presented. The core plasma evolution during the rotation of coherent modes is characterized with this tomography diagnostic. The experimental observations show that the mode shape is constant during the plasma rotation. The results are also compared to two-dimensional probe measurements.

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Section: Mono-sensor Tomography Set-upsupporting

confidence: 62%

Characterisation of coherent rotating modes in a magnetised plasma column using a mono-sensor tomography diagnostic

et al. 2016

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“…Tomographic reconstructions of foil bolometer and AXUV diode signals were obtained with first order linear regularization on a rectangular grid covering the whole plasma chamber [10]. Based on these images, both the spatial distributions of the radiative power and the time dependent total radiative power emitted by the plasma may be determined.…”

Section: Methodsmentioning

confidence: 99%

Radiation distributions in TCV

Veres

Pitts

Wischmeier

et al. 2007

Journal of Nuclear Materials

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Tomographically reconstructed total radiative powers from bolometer and AXUV camera systems are compared to SOLPS5 simulations in low and high density deuterium and helium diverted discharges on the TCV tokamak. For low density the match between simulation and measurements is satisfactory, but at high density strongly radiating regions outside the SOLPS5 simulation grid are seen in measurements and maybe due to enhanced convective particle transport in the low field side midplane region. The chord coverage of the foil bolometer system does not, however, allow detailed resolution in this region. The comparison of foil and AXUV data also demonstrates that ageing of the AXUV diodes under plasma irradiation combined with the unevenness of the diode spectral response, strongly limits their application for total radiative power measurements.

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“…There are a variety of methods which lead to the 2D image. Some are analytical and others rely on numerical, matrix-inversion techniques [20]. The analytical methods involve Fourier analysis of the mode structure of the image.…”

Section: Optical Tomographymentioning

confidence: 99%

“…It was developed by Anton et al [20] as a hybrid of linear regularization (LR) and minimum Fisher information (MFI). The basic idea is to solve the following set of equations:…”

Section: Analyticsmentioning

confidence: 99%

Test ion transport in a collisional, field-reversed configuration

Roche

McWilliams

Heidbrink

et al. 2014

Plasma Sources Sci. Technol.

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Diffusion of test-ions in a flux-coil generated, collisional, field-reversed configuration is measured via time-resolved tomographic reconstruction of Ar + optical emission in the predominantly nitrogen plasma. Azimuthal test ion diffusion across magnetic field lines is found to be classical during the stable period of the discharge. Test ion radial confinement is enhanced by a radial electric field, reducing the observed outward radial transport rate below predictions based solely on classical cross-field diffusion rates. Test ion diffusion is ∼500 m 2 s −1 during the stable period of the discharge. The electric field inferred from plasma potential measurements and from equilibrium calculations is consistent with the observed reduction in argon transport.

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X-ray tomography on the TCV tokamak

Cited by 214 publications

References 27 publications

Characterisation of coherent rotating modes in a magnetised plasma column using a mono-sensor tomography diagnostic

Characterisation of coherent rotating modes in a magnetised plasma column using a mono-sensor tomography diagnostic

Radiation distributions in TCV

Test ion transport in a collisional, field-reversed configuration

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