Amélioration virtuelle de la résolution d'images du Soleil par augmentation d'information invariante d'échelle
Résumé
Current images of the quiet Sun from the spatial telescope EIT are such that 1 pixel = (1800km)2 whereas the smallest physical scales would be of about 100 m. The design of a high resolution spatial telescope where 1 pixel = (80 km)2 is planned. With a resolution 25 times finer, the images may be under-exposed or even useless. The point is to predict at best the quality of these images from the current observations. We exploit the scale invariance properties of images currently available to suggest a method to artificially improve (of a potentially infinite factor) the current images resolution by integrating details from a multifractal stochastic model. Quiet Sun images are magnified by a factor 32 while preserving the multiscale properties (spectrum, multiscaling) and assuring that reducing the magnified image gives the initial image back. We deduce from that an extrapolation of histograms of high resolution images allowing a prediction of the quality of images from a future high resolution telescope.
Origine : Fichiers produits par l'(les) auteur(s)
Loading...