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  Neutrino production in electromagnetic cascades: An extra component of cosmogenic neutrino at ultrahigh energies

Wang, K., Liu, R.-Y., Li, Z., & Dai, Z.-G. (2017). Neutrino production in electromagnetic cascades: An extra component of cosmogenic neutrino at ultrahigh energies. Physical Review D, 95(6): 063010. doi:10.1103/PhysRevD.95.063010.

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 Creators:
Wang, Kai1, Author           
Liu, Ruo-Yu2, Author
Li, Zhuo2, Author
Dai, Zi-Gao2, Author
Affiliations:
1Division Prof. Dr. Werner Hofmann, MPI for Nuclear Physics, Max Planck Society, ou_904550              
2external, ou_persistent22              

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 MPINP: Hochenergie-Astrophysik Theorie - Abteilung Hofmann
 Abstract: Muon pairs can be produced in the annihilation of ultrahigh energy (UHE, E greater than or similar to 10(18) eV) photons with low energy cosmic background radiation in the intergalactic space, giving birth to neutrinos. Although the branching ratio of muon pair production is low, products of other channels, which are mainly electron/positron pairs, will probably transfer most of their energies into the new generated UHE photon in the subsequent interaction with the cosmic background radiation via Compton scattering in deep Klein-Nishina regime. The regeneration of these new UHE photons then provides a second chance to produce the muon pairs, enhancing the neutrino flux. We investigate the neutrino production in the propagation of UHE photons in the intergalactic space at different redshifts, considering various competing processes such as pair production, double pair production for UHE photons, and triplet production and synchrotron radiation for UHE electrons. Following the analytic method raised by Gould and Rephaeli, we firstly study the electromagnetic cascade initiated by an UHE photon, with paying particular attention to the leading particle in the cascade process. Regarding the least energetic outgoing particles as energy loss, we obtain the effective penetration length of the leading particle, as well as energy loss rate including the neutrino emission rate in the cascade process. Finally, we find that an extra component of UHE neutrinos will arise from the propagation of UHE cosmic rays due to the generated UHE photons and electron/positrons. However, the flux of this component is quite small, with a flux of at most 10% of that of the conventional cosmogenic neutrino at a few EeV, in the absence of a strong intergalactic magnetic field and a strong cosmic radio background. The precise contribution of extra component depends on several factors, e.g., cosmic radio background, intergalactic magnetic field, and the spectrum of proton, which are discussed in this work.

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 Dates: 2017
 Publication Status: Published online
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 Identifiers: DOI: 10.1103/PhysRevD.95.063010
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Title: Physical Review D
  Other : Phys. Rev. D.
Source Genre: Journal
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Publ. Info: Lancaster, Pa. : American Physical Society
Pages: - Volume / Issue: 95 (6) Sequence Number: 063010 Start / End Page: - Identifier: ISSN: 0556-2821
CoNE: https://pure.mpg.de/cone/journals/resource/111088197762258