The study of the morphology of 2D projected maps of galaxy clusters is a suitable approach to infer, from real data, the dynamical state of those systems. We recently developed a new method to recover the morphological features in galaxy cluster maps which consists of an analytical modelling through the Zernike polynomials. The validation of this approach was done on a set of high-resolution mock maps of the Compton parameter y. These maps are from hydrodynamically simulated galaxy clusters in The Three Hundred project. After this step, we apply the Zernike modelling on y-maps of local (z < 0.1) galaxy clusters observed by the Planck satellite. With a single parameter collecting the main information of the Zernike modelling, we classify their morphology. A set of mock Planck-like y-maps, generated from The Three Hundred clusters, is also used to validate our indicator with a proper dynamical state classification. This approach allows us to test the efficiency of the Zernike morphological modelling in evaluati
Galaxy clusters morphology with Zernike polynomials: the first application on Planck Compton parameter maps / Capalbo, V; De Petris, M; Cui, W; Ferragamo, A; Ruppin, F; Yepes, G. - In: EPJ WEB OF CONFERENCES. - ISSN 2100-014X. - 293:(2024). (Intervento presentato al convegno OBSERVING THE UNIVERSE AT MM WAVELENGTHS, MM UNIVERSE 2023 tenutosi a Lab Physique Subatomique & Cosmol, Grenoble, FRANCE) [10.1051/epjconf/202429300009].
Galaxy clusters morphology with Zernike polynomials: the first application on Planck Compton parameter maps
Capalbo, V;De Petris, M;Ferragamo, A;
2024
Abstract
The study of the morphology of 2D projected maps of galaxy clusters is a suitable approach to infer, from real data, the dynamical state of those systems. We recently developed a new method to recover the morphological features in galaxy cluster maps which consists of an analytical modelling through the Zernike polynomials. The validation of this approach was done on a set of high-resolution mock maps of the Compton parameter y. These maps are from hydrodynamically simulated galaxy clusters in The Three Hundred project. After this step, we apply the Zernike modelling on y-maps of local (z < 0.1) galaxy clusters observed by the Planck satellite. With a single parameter collecting the main information of the Zernike modelling, we classify their morphology. A set of mock Planck-like y-maps, generated from The Three Hundred clusters, is also used to validate our indicator with a proper dynamical state classification. This approach allows us to test the efficiency of the Zernike morphological modelling in evaluatiI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
