Gamma-ray Emission of 60Fe and 26Al Radioactivities in our Galaxy

Abstract

The isotopes 60Fe and 26Al originate from massive stars and their supernovae, reflecting ongoing nucleosynthesis in the Galaxy. We studied the gamma-ray emission from these isotopes at characteristic energies 1173, 1332, and 1809 keV with over 15 years of SPI data, finding a line flux in 60Fe combined lines of (0.31 0.06) × 10-3 ph cm-2 s-1 and the 26Al line flux of (16.8 0.7) × 10-4 ph cm-2 s-1 above the background and continuum emission for the whole sky. Based on the exponential-disk grid maps, we characterise the emission extent of 26Al to find scale parameters R0 =7.0+1.5-1.0 kpc and z0=0.8+0.3-0.2 kpc, however the 60Fe lines are too weak to spatially constrain the emission. Based on a point source model test across the Galactic plane, the 60Fe emission would not be consistent with a single strong point source in the Galactic center or somewhere else, providing a hint for a diffuse nature. We carried out comparisons of emission morphology maps using different candidate-source tracers for both 26Al and 60Fe emissions, and suggests that the 60Fe emission is more likely to be concentrated towards the Galactic plane. We determine the 60Fe/26Al γ-ray flux ratio at (18.44.2)\,\% , when using a parameterized spatial morphology model. Across the range of plausible morphologies, it appears possible that 26Al and 60Fe are distributed differently in the Galaxy. Using the best fitting maps for each of the elements, we constrain flux ratios in the range 0.2--0.4. We discuss its implications for massive star models and their nucleosynthesis.