i(cm)z, a semi-analytic model for the thermodynamic properties in galaxy clusters: calibrations with mass and redshift, and implication for the hydrostatic bias

Abstract

In the self-similar scenario for galaxy cluster formation and evolution, the thermodynamic properties of the X-ray emitting plasma can be predicted in their dependencies on the halo mass and redshift only. However, several departures from this simple self-similar scenario have been observed. We show how our semi-analytic model i(cm)z, which modifies the self-similar predictions through two temperature-dependent quantities, the gas mass fraction fg=f0 Tf1 Ezfz and the temperature variation fT=t0 Tt1 Eztz, can be calibrated to incorporate the mass and redshift dependencies. We used a published set of 17 scaling relations to constrain the parameters of the model. We were subsequently able to make predictions as to the slope of any observed scaling relation within a few percent of the central value and about one σ of the nominal error. Contextually, the evolution of these scaling laws was also determined, with predictions within 1.5 σ and within 10 percent of the observational constraints. Relying on this calibration, we have also evaluated the consistency of the predictions on the radial profiles with some observational datasets. For a sample of high-quality data (X-COP), we were able to constrain a further parameter of the model, the hydrostatic bias b. By calibrating the model, we have determined that (i) the slopes of the temperature dependence are f1=0.403 (0.009) and t1=0.144 (0.017); and that (ii) the dependence upon Ez are constrained to be fz=-0.004 ( 0.023) and tz=0.349 ( 0.059). These values permit one to estimate directly how the normalizations of a given quantity Q changes as a function of the mass (or temperature) and redshift halo in the form Q MaM Ezaz TaT EzaTz, in very good agreement with the current observational constraints.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…