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Star-forming and starburst galaxies (SFGs and SBGs) are powerful emitters of non-thermal -rays and neutrinos, due to their intense phases of star-formation activity, which should confine high-energy Cosmic-Rays (CRs) inside their environments. In this paper, using the publicly-available fermitools, we analyse 15. 3 years of -ray between 1-1000\, GeV data for 70 sources, 56 of which were not previously detected. We find at~4 level an indication of -ray emission for other two SBGs, namely M 83 and NGC 1365. By contrast, we find that, even with the new description of background, the significance for the -ray emission of M 33~ (initially reported as discovered) still stands at \, 4 (as already reported by previous works). Along with previous findings, the flux of each detected source is consistent with a E^-2. 3/2. 4 spectrum, compatible with the injected CR flux inferred for CRs in the Milky-Way. We notice that the correlation between the calorimetric fraction~F ₂₀₋ of high-energy protons in SFGs and SBGs (the fraction of high-energy protons actually producing high-energy -rays and neutrinos) and the SFR is in accordance with the expected scaling relation for CR escape dominated by advection. We remark that undiscovered sources strongly constrain F ₂₀₋ at 95\% CL, providing fundamental information when we interpret the results as common properties of SFGs and SBGs. Finally, we find that these sources might contribute (12 3) \% to the EGB, while the corresponding diffuse neutrino flux strongly depends on the spectral index distribution along the source class.
Ambrosone et al. (Wed,) studied this question.