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UBAT of UFFO/Lomonosov: The X-Ray Space Telescope to Observe Early Photons from Gamma-Ray Bursts
Jeong, S.,Panasyuk, M. I.,Reglero, V.,Connell, P.,Kim, M. B.,Lee, J.,Rodrigo, J. M.,Ripa, J.,Eyles, C.,Lim, H.,Gaikov, G.,Jeong, H.,Leonov, V.,Chen, P.,Castro-Tirado, A. J.,Nam, J. W.,Svertilov, S.,Ya Springer-Verlag 2018 Space science reviews Vol.214 No.1
Wide-Field Gamma-Spectrometer BDRG: GRB Monitor On-Board the Lomonosov Mission
Svertilov, S. I.,Panasyuk, M. I.,Bogomolov, V. V.,Amelushkin, A. M.,Barinova, V. O.,Galkin, V. I.,Iyudin, A. F.,Kuznetsova, E. A.,Prokhorov, A. V.,Petrov, V. L.,Rozhkov, G. V.,Yashin, I. V.,Gorbovskoy D. Reidel Pub. Co 2018 Space science reviews Vol.214 No.1
“Lomonosov” Satellite—Space Observatory to Study Extreme Phenomena in Space
Sadovnichii, V. A.,Panasyuk, M. I.,Amelyushkin, A. M.,Bogomolov, V. V.,Benghin, V. V.,Garipov, G. K.,Kalegaev, V. V.,Klimov, P. A.,Khrenov, B. A.,Petrov, V. L. Springer Science + Business Media 2017 Space science reviews Vol.212 No.3
<P>This paper is directed towards the general description of both scientific goals of the project and scientific equipment on board the satellite. The following papers of this issue are devoted to detailed descriptions of scientific instruments.</P>
The TUS Detector of Extreme Energy Cosmic Rays on Board the Lomonosov Satellite
Klimov, P. A.,Panasyuk, M. I.,Khrenov, B. A.,Garipov, G. K.,Kalmykov, N. N.,Petrov, V. L.,Sharakin, S. A.,Shirokov, A. V.,Yashin, I. V.,Zotov, M. Y.,Biktemerova, S. V.,Grinyuk, A. A.,Grebenyuk, V. M. Springer-Verlag 2017 Space science reviews Vol.212 No.3
<P>It will also be able to register slower atmospheric transient events: atmospheric fluorescence in electrical discharges of various types including precipitating electrons escaping the magnetosphere and from the radiation of meteors passing through the atmosphere. We describe the design of the TUS detector and present results of different ground-based tests and simulations.</P>
Prompt and Follow-up Multi-wavelength Observations of the GRB 161017A
Sadovnichy, V. A.,Panasyuk, M. I.,Svertilov, S. I.,Lipunov, V. M.,Bogomolov, V. V.,Gorbovskoy, E. S.,Bogomolov, A. V.,Castro-Tirado, A. J.,Gabovich, A.,Hu, Y.,Iyudin, A. F.,Jeong, H. M.,Jeong, S.,Kim, American Astronomical Society 2018 The Astrophysical journal Vol.861 No.1
<P>This paper presents data on the simultaneous and complementary observations of the gamma-ray burst (GRB) GRB 161017A for optical, X-ray, and gamma wavelengths obtained by the Russian multi-messenger Lomonosov space observatory and supplemented by additional data from the Swift satellite as well as the ground-based MASTER Global Robotic Net and the 10 m Gran Telescopio Canarias. Multifrequency spectra of this very powerful explosion indicate that it originated at a distance of 10 billion light years from Earth. Here, we present the results of the prompt, early, and afterglow optical observations. The light curves and spectra suggest that the prompt optical and high-energy emissions occur in the same region near the GRB source.</P>
UFFO/Lomonosov: The Payload for the Observation of Early Photons from Gamma Ray Bursts
Park, I. H.,Panasyuk, M. I.,Reglero, V.,Chen, P.,Castro-Tirado, A. J.,Jeong, S.,Bogomolov, V.,Brandt, S.,Budtz-Jørgensen, C.,Chang, S.-H.,Chang, Y. Y.,Chen, C.-R.,Chen, C.-W.,Choi, H. S.,Connell, P.,E Springer-Verlag 2018 Space science reviews Vol.214 No.1
NEUTRON FIELD OF THE EARTH, ORIGIN AND DYNAMICS
Kuzhevshkij, B.M.,Nechaev, O.Yu.,Panasyuk, M.I.,Sigaeva, E.A.,Volodichev, N.N.,Zakharov, V.A. 대한방사선 방어학회 2001 방사선방어학회지 Vol.26 No.3
It is shown, that both cosmic radiation (external source) and natural radioactive gases (inner source) are sources of neutrons near the Earth crust. Correlation between the Earth crust dynamics and variations of thermal and slow neutron flux near the Earth surface is studied. It is shown, that variations of neutron flux near the Earth crust can be used for short-term predicting of natural hazards.
A New Type of Space Telescope for Observation of Extreme Lightning Phenomena in the Upper Atmosphere
Lee, J.,Kim, J. E.,Na, G. W.,Jeon, J. A.,Jeong, S.,Jung, A.,Lee, H. Y.,Nam, J. W.,Suh, J. E.,Garipov, G.,Klimov, P.,Khrenov, B. A.,Panasyuk, M. I.,Vedenkin, N. N.,Park, I. H. IEEE 2012 IEEE transactions on geoscience and remote sensing Vol.50 No.10
<P>A new type of space telescope with a 3 mm × 3 mm Micro-Electro-Mechanical System (MEMS) micromirror array has been fabricated and launched into space. This telescope has unique features: a wide field of surveillance view, and fast zoom-in and tracking capabilities. Although the micromirror array area is small, the space telescope was capable of observing the space-time development of extreme lightning in the upper atmosphere. It fulfilled its purpose by proving the principles of a space telescope. The concept and technologies used in this telescope can be extended to large MEMS space telescopes for future missions for earth and space science, including gamma ray bursts and ultra high energy cosmic rays. The performance of the space telescope during the ground test before launch as well as its performance in space are here presented to demonstrate the fast zoom-in and tracking capabilities of the telescope.</P>