This repository allows to reproduce almost the complete analysis and the plots of the publication "Prospects for dark matter observations in dwarf spheroidal galaxies with the Cherenkov Telescope Array Observatory " of the CTAO, currently submitted for publication in MNRAS, and available in preprint https://arxiv.org/abs/2508.19120. It contains also additional material that is not reported in the publication such as tables of astrophysical factors, that could be used separately. Breakdown of the content: 1/ Clumpy DM density and astrophysical profiles Clumpy is the open source public software used for the generation of DM density profiles and astrophysical factors for the work. In the `clumpy` folder one can find 1A/ Clumpy density profiles, that contains the density profiles in function of the angular distance from the dsph center (as well as a README to explain its content): clumpy/DMdensity/clumpy/DMdensity/README.mdclumpy/DMdensity/dm_densityprofile_burkert.datclumpy/DMdensity/dm_densityprofile_burkert_others.datclumpy/DMdensity/dm_densityprofile_einasto.datclumpy/DMdensity/dm_densityprofile_einasto_others.dat 1B/ Clumpy annihilating-DM astrophysical profiles for Einasto and Burkert profiles, that contains the median and +-1/2 sigma profiles in function of the angular distance, in the clumpy format: clumpy/Jfactors/profile/Burkert/README.mdclumpy/Jfactors/profile/Burkert/rvir_BooI_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_CBe_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_DraI_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_GruII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_RetII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_Scl_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_Seg1_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_Sex_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_SgrII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_SgrI_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_TriII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_UMaII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_UMi_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Burkert/rvir_Wil1_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_BooI_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_CBe_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_DraI_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_GruII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_RetII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_Scl_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_Seg1_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_Sex_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_SgrII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_SgrI_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_TriII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_UMaII_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_UMi_MCMC.dat.Jalphaint_cls.outputclumpy/Jfactors/profile/Einasto/rvir_Wil1_MCMC.dat.Jalphaint_cls.output 1C/ the same but for the decay-astrophysical factors. clumpy/Dfactors/profile/Burkert/rvir_BooI_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_CBe_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_DraI_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_GruII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_RetII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_Scl_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_Seg1_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_Sex_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_SgrII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_SgrI_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_TriII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_UMaII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_UMi_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Burkert/rvir_Wil1_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_BooI_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_CBe_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_DraI_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_GruII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_RetII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_Scl_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_Seg1_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_Sex_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_SgrII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_SgrI_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_TriII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_UMaII_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_UMi_MCMC.dat.Dalphaint_cls.outputclumpy/Dfactors/profile/Einasto/rvir_Wil1_MCMC.dat.Dalphaint_cls.output 1D/ The corresponding 2Dmaps (fits file) generated with `gammapy`: clumpy/Dfactors/2Dmaps/Burkert/decay_CBe2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_DraI2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_RetII2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_Scl2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_SgrII2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_UMaII2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_UMi2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Burkert/decay_Wil12D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fits clumpy/Dfactors/2Dmaps/Einasto/decay_CBe2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_DraI2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_RetII2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_Scl2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_SgrII2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_UMaII2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_UMi2D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fitsclumpy/Dfactors/2Dmaps/Einasto/decay_Wil12D_FOVdiameter10.0deg_nside1024-DFACTOR-Dtot-image.fits along with the script to generate them: clumpy/Jfactors/2Dmaps/makeFitsImage.py clumpy/Dfactors/2Dmaps/makeFitsImage.py 2/ The instrument response functions of CTAO (Prod5.1) The analysis is based on Prod5.1 CTAO IRFs available at https://doi.org/10.5281/zenodo.5499840. The folder IRFs/HOWTO.md contains an instruction file to retrieve the IRFs and place them correctly to run scripts. 3/ The actual limits (sigmav, tau) obtained from our analysis, expressed in quantiles. These comes from single targets or combined targets, for annihilation and decay, for Burkert or Einasto profiles considering the astrophysical factor as a nuisance parameter (`wsj`) or not (`wosj`) 3.1/ Annihilation sigmav limits without J-factor as nuisance limits_wosj/annihilation/combined/Combined_annichilation_CBe_Wil1_t600_wosj_quantiles.csvlimits_wosj/annihilation/combined/Combined_annihilation_AllSources_t600_wosj_quantiles.csv limits_wosj/annihilation/single/CBe_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/CBe_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/DraI_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/DraI_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/RetII_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/RetII_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/Scl_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/Scl_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/SgrII_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/SgrII_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/UMaII_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/UMaII_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/UMi_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/UMi_einasto_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/Wil1_burkert_annihilation_t100h_wosj_quantiles.csvlimits_wosj/annihilation/single/Wil1_einasto_annihilation_t100h_wosj_quantiles.csv 3.2/ Decay lifetime limits without J-factor as nuisance limits_wosj/decay/combined/Combined_decay_einasto_AllSources_t600_wosj_quantiles.csvlimits_wosj/decay/combined/Combined_decay_einasto_CBe_UMi_t600_wosj_quantiles.csvlimits_wosj/decay/single/CBe_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/CBe_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/DraI_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/DraI_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/RetII_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/RetII_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/Scl_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/Scl_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/SgrII_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/SgrII_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/UMaII_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/UMaII_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/UMi_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/UMi_einasto_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/Wil1_burkert_decay_t100h_wosj_quantiles.csvlimits_wosj/decay/single/Wil1_einasto_decay_t100h_wosj_quantiles.csv 3.3/ Annihilation cross-section limits with J-factor as nuisance limits_wsj/annihilation/combined/combined_burkert_annihilation_DraI_UMi_t600_wsj_quantiles.csvlimits_wsj/annihilation/combined/combined_burkert_annihilation_allSources_t600_wsj_quantiles.csvlimits_wsj/annihilation/combined/combined_einasto_annihilation_CBe_Wil1_t600_wsj_quantiles.csvlimits_wsj/annihilation/combined/combined_einasto_annihilation_DraI_UMi_t600_wsj_quantiles.csvlimits_wsj/annihilation/combined/combined_einasto_annihilation_allSources_t600_wsj_quantiles.csvlimits_wsj/annihilation/single/CBe_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/CBe_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/DraI_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/DraI_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/RetII_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/RetII_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/Scl_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/Scl_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/SgrII_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/SgrII_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/UMaII_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/UMaII_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/UMi_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/UMi_einasto_annihilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/Wil1_burkert_annichilation_t100_wsj_quantiles.csvlimits_wsj/annihilation/single/Wil1_einasto_annihilation_t100_wsj_quantiles.csv 3.4/ Decay lifetime limits with J-factor as nuisance limits_wsj/decay/combined/combined_burkert_decay_DraI_UMi_t600_wsj_quantiles.csvlimits_wsj/decay/combined/combined_burkert_decay_allSources_t600_wsj_quantiles.csvlimits_wsj/decay/combined/combined_einasto_decay_CBe_Wil1_t600_wsj_quantiles.csvlimits_wsj/decay/combined/combined_einasto_decay_DraI_UMi_t600_wsj_quantiles.csvlimits_wsj/decay/combined/combined_einasto_decay_allSources_t600_wsj_quantiles.csvlimits_wsj/decay/single/CBe_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/CBe_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/DraI_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/DraI_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/RetII_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/RetII_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/Scl_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/Scl_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/SgrII_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/SgrII_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/UMaII_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/UMaII_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/UMi_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/UMi_einasto_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/Wil1_burkert_decay_t100_wsj_quantiles.csvlimits_wsj/decay/single/Wil1_einasto_decay_t100_wsj_quantiles.csv 4/ Plotting parts These notebooks were used to plot figures. When the paper will be accepted, we will add figure numbers. 4.1/ DM profiles and astrophysical profiles plots/plots_dm_profiles/makeplot_dm_2dmap_profiles.ipynbplots/plots_dm_profiles/makeplot_dm_astro_profiles_14.ipynbplots/plots_dm_profiles/makeplot_dm_density_profile_14.ipynbplots/plots_dm_profiles/makeplot_dmspectra.ipynb plots/ctao_ksp_dsphs.yaml plots/plots_dm_profiles/2Dmaps_dsph_parameters.csvplots/plots_dm_profiles/AstroProfiles_dsph_parameters_14.csvplots/plots_dm_profiles/Density_dsph_parameters_14.csv 4.2/ DM profiles and astrophysical profiles plots/plots_limits/makeplot_dsphKSP_ann_dec.ipynbplots/plots_limits/makeplot_limits_combined_ann_bb.ipynbplots/plots_limits/makeplot_limits_combined_ann_dec_allch.ipynbplots/plots_limits/makeplot_limits_combined_dec_bb.ipynbplots/plots_limits/makeplot_limits_single_ann.ipynbplots/plots_limits/makeplot_limits_single_decay.ipynb with additional input files plots/plots_limits/Relic_WIMP_Abundance.tsv plots/plots_limits/dmbounds/ando_2015_fig4_decay_bb.ecsvplots/plots_limits/dmbounds/cirelli_2012_cta_fornax_decay_bb.csvplots/plots_limits/dmbounds/cirelli_2012_cta_fornax_decay_tautau.csvplots/plots_limits/dmbounds/collider_2015_atlascms_ann_bb.ecsvplots/plots_limits/dmbounds/collider_2015_atlascms_ann_tautau.ecsvplots/plots_limits/dmbounds/cta_2021_gc_WW_core.ecsvplots/plots_limits/dmbounds/cta_2021_gc_ann_bb_sens.ecsvplots/plots_limits/dmbounds/cta_2021_gc_ann_tautau_sens.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_WW_sens_ISOmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_WW_sens_ISOmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_WW_sens_NFWmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_WW_sens_NFWmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_bb_sens_ISOmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_bb_sens_ISOmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_bb_sens_NFWmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_bb_sens_NFWmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_mumu_sens_ISOmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_mumu_sens_ISOmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_mumu_sens_NFWmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_mumu_sens_NFWmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_tautau_sens_ISOmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_tautau_sens_ISOmean.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_tautau_sens_NFWmax.ecsvplots/plots_limits/dmbounds/cta_2023_LMC_ann_tautau_sens_NFWmean.ecsvplots/plots_limits/dmbounds/cta_2023_perseuscluster_dec_bb_sens.ecsvplots/plots_limits/dmbounds/cta_2023_perseuscluster_dec_tautau_sens.ecsvplots/plots_limits/dmbounds/cta_perseus_ksp_bb.csvplots/plots_limits/dmbounds/cta_perseus_ksp_tautau.csvplots/plots_limits/dmbounds/cta_subhalo_bb.ecsvplots/plots_limits/dmbounds/cta_subhalo_tautau.ecsvplots/plots_limits/dmbounds/directsearches_2015_coupp_ann_bb.ecsvplots/plots_limits/dmbounds/directsearches_2015_coupp_ann_tautau.ecsvplots/plots_limits/dmbounds/hawc_2018_multidsph_ann_bb_notri2.ecsvplots/plots_limits/dmbounds/hawc_2018_multidsph_ann_tautau_notri2.ecsvplots/plots_limits/dmbounds/hess_2020_multidsph_ann_bb.ecsvplots/plots_limits/dmbounds/hess_2020_multidsph_ann_tautau.ecsvplots/plots_limits/dmbounds/lat_2012_gc_dec_bb.ecsvplots/plots_limits/dmbounds/lat_2016_multidsph_dec_bb.ecsvplots/plots_limits/dmbounds/lat_2016_multidsph_dec_tautau.ecsvplots/plots_limits/dmbounds/lat_2023_multidsph_ann_bb_measured.ecsvplots/plots_limits/dmbounds/lat_2023_multidsph_ann_tautau_measured.ecsvplots/plots_limits/dmbounds/lhaaso_2024_multidsph_ann_bb.ecsvplots/plots_limits/dmbounds/lhaaso_2024_multidsph_ann_tautau.ecsvplots/plots_limits/dmbounds/lhaaso_2024_multidsph_dec_bb.ecsvplots/plots_limits/dmbounds/lhaaso_2024_multidsph_dec_tautau.ecsvplots/plots_limits/dmbounds/magic_2018_perseuscluster_dec_bb.ecsvplots/plots_limits/dmbounds/magic_2018_perseuscluster_dec_tautau.ecsvplots/plots_limits/dmbounds/magic_2022_multidsph_ann_bb.ecsvplots/plots_limits/dmbounds/magic_2022_multidsph_ann_tautau.ecsvplots/plots_limits/dmbounds/veritas_2017_multidsph_ann_bb.ecsvplots/plots_limits/dmbounds/veritas_2017_multidsph_ann_tautau.ecsv