V. B. Petkov scite author profile

Abstract-Temporal and energy characteristics of the very-high-energy gamma-ray bursts from evaporating primordial black holes have been calculated by assuming that the photospheric and chromospheric effects are negligible. The technique of searching for such bursts on shower arrays is described. We show that the burst time profile and the array dead time should be taken into account to interpret experimental data. Based on data from the Andyrchy array of the Baksan Neutrino Observatory (Institute for Nuclear Research, Russian Academy of Sciences), we have obtained an upper limit on the number density of evaporating primordial black holes in a local region of space with a scale size of ∼ 10

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Observation of Photons above 300 TeV Associated with a High-energy Neutrino from the Cygnus Region

Dzhappuev

Afashokov

Dzaparova

et al. 2021

ApJL

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Galactic sites of acceleration of cosmic rays to energies of order 1015 eV and higher, dubbed PeVatrons, reveal themselves by recently discovered gamma radiation of energies above 100 TeV. However, joint gamma-ray and neutrino production, which marks unambiguously cosmic-ray interactions with ambient matter and radiation, was not observed until now. In 2020 November, the IceCube neutrino observatory reported an ∼150 TeV neutrino event from the direction of one of the most promising Galactic PeVatrons, the Cygnus Cocoon. Here we report on the observation of a 3.1σ (post-trial) excess of atmospheric air showers from the same direction, observed by the Carpet–2 experiment and consistent with a few months flare in photons above 300 TeV, in temporal coincidence with the neutrino event. The fluence of the gamma-ray flare is of the same order as that expected from the neutrino observation, assuming the standard mechanism of neutrino production. This is the first evidence for the joint production of high-energy neutrinos and gamma-rays in a Galactic source.

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V. B. Petkov

Transient variations of secondary cosmic rays due to atmospheric electric field and evidence for pre-lightning particle acceleration

Cosmic rays and the electric field of thunderclouds: Evidence for acceleration of particles (runaway electrons)

Searching for very-high-energy gamma-ray bursts from evaporating primordial black holes

Observation of Photons above 300 TeV Associated with a High-energy Neutrino from the Cygnus Region

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