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Tomographic study of objects with reflecting surfaces 184303
Should an image be reconstructed or is it better to recognize the initial radon transform?
Consideration of refraction in optical tomography using perturbation theory for rays 184306
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accuracy amplitude analysis angle application approximation axis axisymmetric backprojection beam birefringence calculated coefficients components computer tomography considered coordinate corresponding cross-section density described detector determined diagnostics diffraction directions distribution electron ellipsometric emission error experimental data experiments f x,y flow Fourier transform fringe function holographic image moments image reconstruction impurity inhomogeneity integrated photoelasticity intensity interferograms interferometer inverse problem inverse scattering problems investigation jets laser layer light linear magnetic magnetic reconnection mathematical matrix measurements medium method microscanner microtomography mirror Moscow noise nonhomogeneity number of projections obtained optical tomography parameters phase photodetector photoelasticity physical pixels plane plasma polarization possible probing processing projection data projection moments radiation Radon transform rays reconnection reconstruction algorithm refractive index region rotation Russian scanning scheme simulation solution solving spatial speckle photography spectral spectrum structure surface technique temperature tensor field three-dimensional tokamak tomogram tomographic reconstruction two-dimensional wavelength X-ray