V. L. Petrov scite author profile

V. L. Petrov

5Publications

54Citation Statements Received

94Citation Statements Given

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102

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Lomonosov Moscow State University

Publications

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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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Observations of Near-Earth Optical Transients with the Lomonosov Space Observatory

et al. 2018

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The results of observations with the MASTER-SHOK robotic wide-field optical cameras onboard the Lomonosov Space Observatory carried out in 2016 are presented. In all, the automated transient detection system transmitted 22 181 images of moving objects with signal-to-noise ratios greater than 5 to the Earth. Approximately 84% of these images are identified with well-known artificial Earth satellites (including repeated images of the same satellite) and fragments of such satellites (space debris), according to databases of known satellites. The remaining 16% of the images are relate to uncatalogued objects. This first experience in optical space-based monitoring of near-Earth space demonstrates the high e ciency and great ffi potential of using large-aperture cameras in space, based on the software and technology of the MASTER robotic optical complexes (the Mobile Astronomical System of TElescope-Robots (MASTER) global network of robotic telescopes of Lomonosov Moscow State University).

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Space experiments on-board of lomonosov mission to study gamma-ray bursts and UHECRS

Amelushkin

Bogomolov

Benghin

et al. 2013

EAS Publications Series

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BDRG and shok instruments for study of GRB prompt emission in michaylo lomonosov space mission

Amelushkin

Bogomolov

Галкин

et al. 2013

EAS Publications Series

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SHOK—The First Russian Wide-Field Optical Camera in Space

et al. 2017

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V. L. Petrov

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

Observations of Near-Earth Optical Transients with the Lomonosov Space Observatory

Space experiments on-board of lomonosov mission to study gamma-ray bursts and UHECRS

BDRG and shok instruments for study of GRB prompt emission in michaylo lomonosov space mission

SHOK—The First Russian Wide-Field Optical Camera in Space

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