#import "globals.typ": * = Results == Map outputs #let notebook = json("../workdir/11_visualization/simulation_maps.ipynb") #grid( columns: (auto, 10em) )[ #image_cell(notebook, cell_id: "presentation_x_alpha_map") ][ - stronger coupling in dense regions // the ones where the accretion rate is likely higher - nearly no effect in voids // in particular: no values where the coupling has become weaker // will become apparent in the signal as well ] #pagebreak() #grid( columns: (auto, 10em) )[ #image_cell(notebook, cell_id: "presentation_temperature_map") ][ - delayed heating $<=>$ colder halos - highest accreting halos catch up // those are the ones where the diff vanishes: e.g. top right ] #pagebreak() #grid( columns: (auto, 10em) )[ #image_cell(notebook, cell_id: "presentation_xHII_map") ][ - high contrast due to sharp cutoffs - clearly increased dynamic range // more variation due to the different accretion rates // globally the morphology is more diversified now: previously all the bubbles had similar sizes due to their similar size -> this degeneracy is removed here. ] #pagebreak() // Globally: // more dynamic range while the mean systematically shifts towards the (biased) lower accretion rates // Intermezzo - compare with lower alpha range - mostly similar but occasional contributions from higher alpha values // => recommend keeping a wide range since it does not affect performance (if the bins are empty anyway) // the more intersting discussion to be had is the effect of a more fine binning - thesan data already gives an indication which values will be most frequent // => the implementation to test that is there #grid( columns: (auto, 10em) )[ #image_cell(notebook, cell_id: "presentation_dtb_map") ][ - richer structures due to combined effects - clear distinction between "foreground" and "background" effects // the halos themselves produce a stronger singal while the background is usually ] == Signals #let notebook = json("../workdir/11_visualization/simulation_signals.ipynb") #image_cell(notebook, cell_id: "presentation_signal") #image_cell(notebook, cell_id: "power_spectra_comparison")