M. I. Panasyuk scite author profile

Galactic cosmic rays consist of protons, electrons and ions, most of which are believed to be accelerated to relativistic speeds in supernova remnants. All components of the cosmic rays show an intensity that decreases as a power law with increasing energy (for example as E(-2.7)). Electrons in particular lose energy rapidly through synchrotron and inverse Compton processes, resulting in a relatively short lifetime (about 10(5) years) and a rapidly falling intensity, which raises the possibility of seeing the contribution from individual nearby sources (less than one kiloparsec away). Here we report an excess of galactic cosmic-ray electrons at energies of approximately 300-800 GeV, which indicates a nearby source of energetic electrons. Such a source could be an unseen astrophysical object (such as a pulsar or micro-quasar) that accelerates electrons to those energies, or the electrons could arise from the annihilation of dark matter particles (such as a Kaluza-Klein particle with a mass of about 620 GeV).

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Open Questions in Cosmic-Ray Research at Ultrahigh Energies

Batista

Biteau

Bustamante

et al. 2019

Front. Astron. Space Sci.

190

119

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We review open questions and prospects for progress in ultrahigh-energy cosmic ray (UHECR) research, based on a series of discussions that took place during the "The High-Energy Universe: Gamma-Ray, Neutrino, and Cosmic-ray Astronomy" MIAPP workshop in 2018. Specifically, we overview open questions on the origin of the bulk of UHECRs, the UHECR mass composition, the origin of the end of the cosmic-ray spectrum, the transition from Galactic to extragalactic cosmic rays, the effect of magnetic fields on the trajectories of UHECRs, anisotropy expectations for specific astrophysical scenarios, hadronic interactions, and prospects for discovering neutral particles as well as new physics at ultrahigh energies. We also briefly overview upcoming and proposed UHECR experiments and discuss their projected science reach.

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Significant and variable linear polarization during the prompt optical flash of GRB 160625B

Troja

Липунов

Mundell

et al. 2017

Nature

116

106

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An evaluation of the exposure in nadir observation of the JEM-EUSO mission

Adams

Ahmad

Albert

et al. 2013

Astroparticle Physics

131

100

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We evaluate the exposure during nadir observations with JEM-EUSO, the Extreme Universe Space Obser-\ud vatory, on-board the Japanese Experiment Module of the International Space Station. Designed as a mis-\ud sion to explore the extreme energy Universe from space, JEM-EUSO will monitor the Earth’s nighttime\ud atmosphere to record the ultraviolet light from tracks generated by extensive air showers initiated by\ud ultra-high energy cosmic rays. In the present work, we discuss the particularities of space-based obser-\ud vation and we compute the annual exposure in nadir observation. The results are based on studies of the\ud expected trigger aperture and observational duty cycle, as well as, on the investigations of the effects of\ud clouds and different types of background light. We show that the annual exposure is about one order of\ud magnitude higher than those of the presently operating ground-based observatories

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Mini-EUSO Mission to Study Earth UV Emissions on board the ISS

Bacholle

Barrillon

Battisti

et al. 2021

ApJS

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Mini-EUSO is a telescope observing the Earth in the ultraviolet band from the International Space Station. It is a part of the JEM-EUSO program, paving the way to future larger missions, such as K-EUSO and POEMMA, devoted primarily to the observation of ultrahigh-energy cosmic rays from space. Mini-EUSO is capable of observing extensive air showers generated by ultrahigh-energy cosmic rays with an energy above 1021 eV and to detect artificial showers generated with lasers from the ground. Other main scientific objectives of the mission are the search for nuclearites and strange quark matter, the study of atmospheric phenomena such as transient luminous events, meteors, and meteoroids, the observation of sea bioluminescence and of artificial satellites and man-made space debris. Mini-EUSO will map the nighttime Earth in the UV range (290–430 nm), with a spatial resolution of about 6.3 km and a temporal resolution of 2.5 μs, through a nadir-facing UV-transparent window in the Russian Zvezda module. The instrument, launched on 2019 August 22, from the Baikonur Cosmodrome, is based on an optical system employing two Fresnel lenses and a focal surface composed of 36 multianode photomultiplier tubes, 64 channels each, for a total of 2304 channels with single-photon counting sensitivity and an overall field of view of 44°. Mini-EUSO also contains two ancillary cameras to complement measurements in the near-infrared and visible ranges. In this paper, we describe the detector and present the various phenomena observed in the first months of operations.

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First results from the TUS orbital detector in the extensive air shower mode

Khrenov

Климов

Panasyuk

et al. 2017

J. Cosmol. Astropart. Phys.

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Abstract. TUS (Tracking Ultraviolet Set-up), the first orbital detector of extreme energy cosmic rays (EECRs), those with energies above 50 EeV, was launched into orbit on April 28, 2016, as a part of the Lomonosov satellite scientific payload. The main aim of the mission is to test a technique of registering fluorescent and Cherenkov radiation of extensive air showers generated by EECRs in the atmosphere with a space telescope. We present preliminary results of its operation in a mode dedicated to registering extensive air showers in the period from August 16, 2016, to November 4, 2016. No EECRs have been conclusively identified in the data yet, but the diversity of ultraviolet emission in the atmosphere was found to be unexpectedly rich. We discuss typical examples of data obtained with TUS and their possible origin. The data is important for obtaining more accurate estimates of the nocturnal ultraviolet glow of the atmosphere, necessary for successful development of more advanced orbital EECR detectors including those of the KLYPVE (K-EUSO) and JEM-EUSO missions.

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Effects of Space Weather on Technology Infrastructure

Baker¹,

Daly²,

Daglis³

et al. 2004

Space Weather

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An interdisciplinary NATO Advanced Research Workshop on Effects of Space Weather on Technology Infrastructure (ESPRIT) was held in Rhodes, Greece, on 25‐29 March 2003, bringing together internationally renowned experts from the physics, engineering, and application/user communities to review and assess the current knowledge on space weather dynamics and its technological and societal consequences.

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Possible structure in the cosmic ray electron spectrum measured by the ATIC-2 and ATIC-4 experiments

Панов

Zatsepin

Sokolskaya

et al. 2011

Astrophys. Space Sci. Trans.

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M. I. Panasyuk

An excess of cosmic ray electrons at energies of 300–800 GeV

Open Questions in Cosmic-Ray Research at Ultrahigh Energies

Significant and variable linear polarization during the prompt optical flash of GRB 160625B

An evaluation of the exposure in nadir observation of the JEM-EUSO mission

Mini-EUSO Mission to Study Earth UV Emissions on board the ISS

First results from the TUS orbital detector in the extensive air shower mode

Effects of Space Weather on Technology Infrastructure

Possible structure in the cosmic ray electron spectrum measured by the ATIC-2 and ATIC-4 experiments

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