http://arxiv.org/abs/2203.09538
The chemical composition of the highest end of the ultra-high-energy cosmic ray spectrum is very hard to measure experimentally, and to this day it remains mostly unknown. Since the trajectories of ultra-high-energy cosmic rays are deflected in the magnetic field of the Galaxy by an angle that depends on their atomic number $Z$, it could be possible to indirectly measure $Z$ by quantifying the amount of such magnetic deflections. In this paper we show that, using the angular harmonic cross-correlation between ultra-high-energy cosmic rays and galaxies, we could effectively distinguish different atomic numbers with current data. As an example, we show how, if $Z=1$, the cross-correlation can exclude a $39\%$ fraction of Fe56 nuclei at $2\sigma$ for rays above $100\text{EeV}$.
K. Tanidis, F. Urban and S. Camera
Mon, 21 Mar 22
49/60
Comments: 13 pages, 6 figures + appendix. To be submitted soon. Comments are welcome
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