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Dhital, N; Homola, P; Alvarez-Castillo, D; Gora, D; Wilczyński, H; K Almeida Cheminant; Poncyljusz, B; Mędrala, J; Opiła, G; Bhatta, G; Bretz, T; Ćwikła, A; Duffy, A R; Gupta, A C; Hnatyk, B; Jagoda, P; Kasztelan, M; Kopański, K; Kovacs, P; Krupinski, M; Nazari, V; Niedźwiecki, M; Ostrogórski, D; Rzecki, K; Smelcerz, K; Smolek, K; Stasielak, J; Sushchov, O; Wibig, T; Wozniak, K; Zamora-Saa, J; Zimborás, Z; Tursunov, Arman
arXiv.org, 11/2021Paper, Journal Article
Propagation of ultra-high energy photons in the solar magnetosphere gives rise to cascades comprising thousands of photons. We study the cascade development using Monte Carlo simulations and find that the photons in the cascades are spatially extended over millions of kilometers on the plane distant from the Sun by 1 AU. We compare results from simulations which use two models of the solar magnetic field, and show that although signatures of such cascades are different for the models used, for practical detection purpose in the ground-based detectors, they are similar.
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