Kruglov, A.A.KruglovKhabibullin, I.I.KhabibullinLyskova, N.N.LyskovaDolag, K.K.DolagBiffi, V.V.Biffi2024-12-092024-12-092024http://hdl.handle.net/20.500.12386/40904Temperature of the hot gas in galaxy clusters is known to be a reliable proxy for the their total gravitating mass, allowing one to use spectroscopic X-ray observations for halo mass function measurements. Data of shallow wide area surveys, however, often precludes direct fitting of the X-ray spectra, given possible biases arising due to unresolved (multitemperature) inner structure of the intracluster medium (ICM), projection effects and necessity of certain model assumptions to be made to allow for robust spectral fitting. We consider using a simple observable value - the average energy of the observed cluster X-ray spectrum - as a model-independent proxy for the ICM temperature, and consequently cluster's mass. We calibrate relation of this proxy to the cluster parameters using mock obsesrvations for a sample of 84 massive galaxy clusters extracted from the Magneticum cosmological hydro simulations. We consider observational parameters corresponding to the all-sky survey observations by SRG/eROSITA. Taking into account contributions of various background and foreground signals, average energy of the simulated X-ray spectra in the $0.4-7.0$ keV band is shown to be a stable indicator of the ICM temperature with $\sim10\%$ scatter and cluster's mass $M_{500}$ with a $\sim 20\%$ scatter. A database containing simulated X-ray images and their spectra (subtracted in several concentric rings) is publicly available.Astrophysics - Cosmology and Nongalactic AstrophysicsAstrophysics - High Energy Astrophysical Phenomenaeprint10.48550/arXiv.2408.120262024arXiv240812026K