121 results on '"Yu. T. Yurkin"'
Search Results
2. GAMMA-400 Gamma-Ray Observations in the GeV and TeV Energy Range
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N. P. Topchiev, A. M. Galper, I. V. Arkhangelskaja, A. I. Arkhangelskiy, A. V. Bakaldin, R. A. Cherniy, I. V. Chernysheva, O. D. Dalkarov, A. E. Egorov, M. D. Kheymits, M. G. Korotkov, A. A. Leonov, A. G. Malinin, V. V. Mikhailov, P. Yu. Minaev, N. Yu. Pappe, M. F. Runtso, A. I. Smirnov, Yu. I. Stozhkov, S. I. Suchkov, and Yu. T. Yurkin
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Nuclear and High Energy Physics ,Atomic and Molecular Physics, and Optics - Published
- 2021
3. The Anticoincidence System of Space-Based Gamma-Ray Telescope GAMMA-400, Test Beam Studies of Anticoincidence Detector Prototype with SiPM Readout
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Alexey Leonov, A. M. Galper, Yu. V. Gusakov, A. V. Bakaldin, Yu. T. Yurkin, A. E. Egorov, O. D. Dalkarov, N. P. Topchiev, Irina V. Chernysheva, Yu. I. Stozhkov, M. F. Runtso, S. I. Suchkov, A. I. Arkhangelskiy, N. Yu. Pappe, I. V. Arkhangelskaja, and M. D. Kheymits
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Physics ,Nuclear and High Energy Physics ,Calorimeter (particle physics) ,Physics::Instrumentation and Detectors ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,Detector ,Astrophysics::Instrumentation and Methods for Astrophysics ,Scintillator ,Atomic and Molecular Physics, and Optics ,Synchrotron ,law.invention ,Telescope ,Optics ,Silicon photomultiplier ,law ,Sensitivity (control systems) ,business ,Fermi Gamma-ray Space Telescope - Abstract
The GAMMA-400 gamma-ray telescope is planned for the launch at the end of 2026 on the Navigator service platform designed by Lavochkin Association on an elliptical orbit with following initial parameters: an apogee $${\sim}$$ 300 000, a perigee $${\sim}$$ 500 km, a rotation period $${\sim}$$ 7 days and inclination of 51.4 $${}^{\circ}$$ . The apparatus is expected to operate for more than 5 years, reaching an unprecedented sensitivity for the search of dark matter signatures and the study of the unresolved and so far unidentified gamma-ray sources. The segmented anticoincidence counters surround the converter-tracker and calorimeter of the telescope with the purpose of vetoing to assure a clean track reconstruction and charged particle background suppression. The anticoincidence detector prototype based on long BC-408 scintillator with silicon photomultipliers readout was tested using 300-MeV positron beam of synchrotron C-25P ‘‘PAKHRA’’ of Lebedev Physical Institute. The measurement setup, design concepts for the prototype detector together with test results are discussed.
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- 2020
4. Gammas and Charged Particles Identification in Lateral and Additional Apertures of GAMMA-400
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Yu. T. Yurkin, I. V. Arkhangelskaja, Yu. I. Stozhkov, O. D. Dalkarov, M. F. Runtso, A. I. Arkhangelskiy, Alexey Leonov, Yu. V. Gusakov, M. D. Kheymits, S. I. Suchkov, A. E. Egorov, A. M. Galper, E. N. Chasovikov, A. V. Bakaldin, Irina V. Chernysheva, N. P. Topchiev, and N. Yu. Pappe
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Physics ,Nuclear and High Energy Physics ,Scintillation ,Calorimeter (particle physics) ,Physics::Instrumentation and Detectors ,010308 nuclear & particles physics ,business.industry ,Aperture ,Astrophysics::High Energy Astrophysical Phenomena ,Astrophysics::Instrumentation and Methods for Astrophysics ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Charged particle ,Synchrotron ,law.invention ,Telescope ,Optics ,law ,0103 physical sciences ,Angular resolution ,Lateral aperture ,010306 general physics ,business - Abstract
The GAMMA-400 (Gamma Astronomical Multifunctional Modular Apparatus) will be a new generation satellite gamma-observatory. The gamma-ray telescope GAMMA-400 consists of the anticoincidence system (top and lateral sections—ACtop and AClat), the converter-tracker (C), the time-of-flight system TOF (two sections S1 and S2), the position-sensitive and electromagnetic calorimeters (CC1 and CC2), the scintillation detectors of the calorimeter (S3 and S4) and lateral anticoincidence detectors of the calorimeter LD. Two apertures used for observation of transient events do not require the best angular resolution as for the gamma-ray bursts and solar flares from both upper and lateral directions. Additional aperture allows the particle registering from upper direction, which do not interact with converter-tracker and do not form a TOF signal. The lateral aperture allows registering of γ-quanta in perpendicular direction with respect to main axis of GAMMA-400 due to CC2, LD, S3, and S4. The thickness of CC2 in this direction is ∼44 X0 and this allows detection of gammas, electrons and positrons with energies up to 10 TeV. The results of calculation of the fractal dimension of temporal profiles of additional aperture prototype of GAMMA-400 during its calibration using secondary positron beam of the synchrotron C-25P “PAKHRA” of Lebedev Physical Institute confirm the absence of any correlation between the AC and CC1 characteristics and correspondence of additional aperture background to Poisson statistics or Erlang one with shape parameter up to 10.
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- 2019
5. A System for Generating the Trigger Signals of the Spaceborne GAMMA-400 Telescope
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S. I. Suchkov, I. V. Arkhangelskaja, N. P. Topchiev, E. N. Chasovikov, A. V. Bakaldin, A. I. Arkhangelskiy, V. G. Zverev, N. Yu. Pappe, Yu. I. Stozhkov, Irina V. Chernysheva, A. E. Egorov, Alexey Leonov, A. M. Galper, M. F. Runtso, Yu. V. Gusakov, O. D. Dalkarov, M. D. Kheymits, and Yu. T. Yurkin
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010302 applied physics ,Physics ,COSMIC cancer database ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,Dark matter ,Gamma ray ,General Physics and Astronomy ,Astronomy ,Electron ,01 natural sciences ,Signal ,Synchrotron ,law.invention ,Telescope ,Positron ,law ,0103 physical sciences - Abstract
The GAMMA-400 space project is one of the new generation of space observatories designed to search for signs of dark matter in the cosmic gamma emission, and to measure the characteristics of diffuse gamma-ray emission and gamma-rays from the Sun during periods of solar activity; gamma-ray bursts; extended and point gamma-ray sources; and electron, positron, and cosmic-ray nuclei fluxes with energies in the TeV ranges. The GAMMA-400 γ-ray telescope constitutes the core of the scientific instrumentation. The nature of the intended experiments imposes stringent requirements on the gamma telescope’s system of trigger signal formation, now being developed using the state-of-the-art logic devices and fast data links. The design concept of the system is discussed, along with the chosen engineering solutions and some experimental results obtained during the operation of the system prototype using a positron beam with energies of 100–300 MeV from the PAKHRA S-25R synchrotron at the Lebedev Physical Institute.
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- 2019
6. GAMMA-400 Project
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Yu. T. Yurkin, N. P. Topchiev, and A. M. Galper
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Physics ,010504 meteorology & atmospheric sciences ,Astrophysics::High Energy Astrophysical Phenomena ,Dark matter ,Galactic Center ,Astronomy ,Astronomy and Astrophysics ,Cosmic ray ,Galactic plane ,01 natural sciences ,Galaxy ,law.invention ,Telescope ,Positron ,Space and Planetary Science ,law ,0103 physical sciences ,010303 astronomy & astrophysics ,0105 earth and related environmental sciences ,Fermi Gamma-ray Space Telescope - Abstract
Extraterrestrial gamma-ray astronomy is now a source of a new knowledge in the fields of astrophysics, cosmic-ray physics, and the nature of dark matter. The next absolutely necessary step in the development of extraterrestrial high-energy gamma-ray astronomy is the improvement of the physical and technical characteristics of gamma-ray telescopes, especially their angular and energy resolutions. Such a new generation telescope will be GAMMA-400, currently under development. Together with an X-ray telescope, it will perform precise and detailed observations in the energy range of ~20 MeV to ~10 000 GeV and 3–30 keV the Galactic plane, especially, toward the Galactic Center, Fermi Bubbles, Crab, Cygnus, etc. The GAMMA-400 will operate in the highly elliptic orbit continuously for a long time with the unprecedented angular (~0.01◦ at Eγ = 100 GeV) and energy (~1% at Eγ = 100 GeV) resolutions, exceeding the Fermi-LAT as well as ground-based gamma-ray telescopes by a factor of 5–10. GAMMA-400 will permit resolving gamma rays from annihilation or decay of dark matter particles, identifyingmany discrete sources (many of which are variable), clarifying the structure of extended sources, specifying the data on the diffuse emission, as well as measuring electron + positron fluxes and specifying electron + positron spectrum in the energy range from 1 GeV to 10 000 GeV.
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- 2018
7. The Future Space-Based GAMMA-400 Gamma-Ray Telescope for Studying Gamma and Cosmic Rays
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Irina V. Chernysheva, A. V. Bakaldin, A. M. Galper, Yu. T. Yurkin, Yu. I. Stozhkov, O. D. Dalkarov, N. P. Topchiev, Alexey Leonov, M. D. Kheimitz, M. F. Runtso, V. G. Zverev, I. V. Arkhangelskaja, Yu. V. Gusakov, P. Yu. Naumov, N. Yu. Pappe, A. I. Arkhangelskiy, S. I. Suchkov, and A. E. Egorov
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010302 applied physics ,Physics ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,Highly elliptical orbit ,General Physics and Astronomy ,Astronomy ,Cosmic ray ,Celestial sphere ,Electron ,01 natural sciences ,law.invention ,Telescope ,Positron ,Observatory ,law ,0103 physical sciences ,Fermi Gamma-ray Space Telescope - Abstract
The future space-based γ-ray telescope GAMMA-400 will be installed on the Navigator platform of the Russian astrophysical observatory. A highly elliptical orbit will allow prolonged (~100 days) continuous observations of many regions of the celestial sphere for 7–10 years. GAMMA-400 will measure fluxes of γ‑ray emission in the energy range of ~20 MeV to several TeV and electrons + positrons to ~20 TeV. The γ-ray telescope will have excellent separation of γ-ray emissions against the background of cosmic rays and electrons + positrons from protons, along with unprecedented angular (~0.01° at Eγ = 100 GeV) and energy (~1% at Eγ = 100 GeV) resolutions 5–10 times better than for the Fermi-LAT and ground-based γ-ray telescopes. GAMMA-400 observations will provide fundamentally new data on discrete sources and spectra of γ-ray emissions and electrons + positrons.
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- 2019
8. Precision Measurements of High-Energy Cosmic Gamma-Ray Emission with the GAMMA-400 Gamma-Ray Telescope
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Alexey Leonov, Yu. T. Yurkin, O. D. Dalkarov, N. P. Topchiev, P. Yu. Naumov, Yu. V. Gusakov, S. I. Suchkov, I. V. Arkhangelskaja, A.I. Arkhangelskiy, A. M. Galper, M. D. Kheymits, V. G. Zverev, A. E. Egorov, A. V. Bakaldin, V. V. Kadilin, and M. F. Runtso
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Physics ,Nuclear and High Energy Physics ,Annihilation ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,Gamma ray ,Cosmic ray ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Astrophysics ,01 natural sciences ,Electromagnetic radiation ,Atomic and Molecular Physics, and Optics ,law.invention ,Telescope ,Positron ,law ,Antimatter ,0103 physical sciences ,010303 astronomy & astrophysics ,Astrophysics::Galaxy Astrophysics ,Fermi Gamma-ray Space Telescope - Abstract
The GAMMA-400 γ-ray telescope installed at the Russian space observatory is intended for precision measurements in the energy range of 20 MeV–1000 GeV of γ-ray emission (with the angular and energy resolutions several times better than that of current γ-ray telescopes) from discrete sources; measurement of the energy spectra of Galactic and extragalactic diffuse γ-ray emission; studies of γ-ray emission from the active Sun; and measurements of fluxes of γ-ray emission and electron–positron cosmicray component, which are probably associated with the annihilation or decay of dark-matter particles.
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- 2017
9. Spectra of solar neutrons with energies of ~10–1000 MeV in the PAMELA experiment in the flare events of 2006–2015
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Alfonso Monaco, C. De Santis, R. Sparvoli, Roberto Bellotti, A. M. Galper, M. Merge, Yu. T. Yurkin, G. A. Bazilevskaya, A. N. Kvashnin, S. Bottai, V. Di Felice, Per Carlson, M. Bongi, F. Cafagna, G. Castellini, Sergey Koldashov, Alexey Leonov, Matteo Martucci, V. Bonvicini, V. V. Malakhov, Andrea Vacchi, E. A. Bogomolov, N. Zampa, D. Campana, L. Marcelli, M. Simon, Yuri Stozhkov, Mark Pearce, S. B. Ricciarini, O. Adriani, A. Bruno, Marco Casolino, Sergey Koldobskiy, A. V. Karelin, Marco Ricci, W. Menn, M. F. Runtso, G. C. Barbarino, Riccardo Munini, S. A. Voronov, P. Spillantini, P. Papini, Nicola Mori, A. G. Mayorov, E. Vannuccini, S. Y. Krutkov, G. Zampa, Beatrice Panico, G. Osteria, P. Picozza, G. I. Vasilyev, E. Mocchiutti, V. V. Mikhailov, Mirko Boezio, A. A. Kvashnin, Bogomolov, E. A., Adriani, O., Bazilevskaya, G. A., Barbarino, G. C., Bellotti, R., Boezio, M., Bonvicini, V., Bongi, M., Bottai, S., Bruno, A., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Galper, A. M., De Santis, C., Di Felice, V., Zampa, G., Zampa, N., Casolino, M., Campana, D., Karelin, A. V., Carlson, P., Castellini, G., Cafagna, F., Kvashnin, A. A., Kvashnin, A. N., Koldashov, S. V., Koldobskiy, S. A., Krutkov, S. Y., Leonov, A. A., Mayorov, A. G., Malakhov, V. V., Martucci, M., Marcelli, L., Menn, W., Merge, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Picozza, P., Pearce, M., Ricci, M., Ricciarini, S. B., Runtso, M. F., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., and Yurkin, Y. T.
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Physics Solar flare ,Solar neutrons ,Space experiments: Neutrons ,010504 meteorology & atmospheric sciences ,Astrophysics::High Energy Astrophysical Phenomena ,Nuclear Theory ,Hadron ,General Physics and Astronomy ,Flux ,Astrophysics ,01 natural sciences ,Spectral line ,law.invention ,Nuclear physics ,Physics and Astronomy (all) ,Space experiment ,law ,0103 physical sciences ,Astrophysics::Solar and Stellar Astrophysics ,Neutron detection ,Neutron ,Nuclear Experiment ,010303 astronomy & astrophysics ,0105 earth and related environmental sciences ,Settore FIS/01 ,Physics ,Solar flare ,Physics::Space Physics ,Flare - Abstract
The first results from measuring the spectra of solar neutrons with energies of ~10-1000 MeV in the solar flares of 2006-2015 observed by the PAMELA international space experiment are presented. The PAMELA neutron detector with 3He counters and a moderator with an area of 0.18 m2 allows us to estimate the flux of solar neutrons during solar flares. Solar neutrons with energies of ~10-1000 MeV likely occurred in 21 out of the 24 analyzed flares of 2006-2015. © 2017, Allerton Press, Inc.
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- 2017
10. Galactic Cosmic Ray Electrons and Positrons over a Decade of Observations in the PAMELA Experiment
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M. Bongi, P. Spillantini, M. Simon, Alfonso Monaco, V. Di Felice, E. Mocchiutti, Matteo Martucci, G. A. Bazilevskaya, N. Zampa, G. Zampa, Beatrice Panico, D. Campana, Yu. I. Stozhkov, O. Adriani, V. Bonvicini, Alexey Leonov, V. V. Mikhailov, P. Carlson, V. V. Malakhov, S. V. Koldashov, Marco Ricci, A. V. Karelin, L. Marcelli, Marco Casolino, A. G. Mayorov, M. F. Runtso, Riccardo Munini, S. A. Voronov, Sergey Koldobskiy, Mark Pearce, S. B. Ricciarini, C. De Santis, A. Bruno, M. Merge, G. C. Barbarino, W. Menn, Yu. T. Yurkin, R. Sparvoli, P. Picozza, G. Osteria, F. Cafagna, P. Papini, E. A. Bogomolov, Mirko Boezio, E. Vannuccini, A. A. Kvashnin, Andrea Vacchi, G. Castellini, Roberto Bellotti, A. M. Galper, G. I. Vasilyev, Nicola Mori, A. N. Kvashnin, S. Yu. Krutkov, Mikhailov, V. V., Adriani, O., Bazilevskaya, G. A., Barbarino, G. C., Bellotti, R., Bogomolov, E. A., Boezio, M., Bonvicini, V., Bongi, M., Bruno, A., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Galper, A. M., De Santis, C., Di Felice, V., Zampa, G., Zampa, N., Casolino, M., Campana, D., Karelin, A. V., Carlson, P., Castellini, G., Cafagna, F., Kvashnin, A. A., Kvashnin, A. N., Koldashov, S. V., Koldobskiy, S. A., Krutkov, S. Y., Leonov, A. A., Mayorov, A. G., Malakhov, V. V., Martucci, M., Marcelli, L., Menn, W., Merge, M., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Picozza, P., Pearce, M., Ricci, M., Ricciarini, S. B., Runtso, M. F., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., and Yurkin, Y. T.
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010302 applied physics ,Physics ,Settore FIS/01 ,Earth's orbit ,Range (particle radiation) ,Antiparticle ,Spectrometer ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,Astrophysics::Instrumentation and Methods for Astrophysics ,General Physics and Astronomy ,Astronomy ,Cosmic ray ,Electron ,Cosmic-ray particles ,01 natural sciences ,Cosmology ,Magnetic spectrometers ,Positrons ,Positron ,Physics::Space Physics ,0103 physical sciences ,Satellite ,Nuclear Experiment - Abstract
The PAMELA magnetic spectrometer was launched onboard the Resurs-DK1 satellite into a near-polar Earth orbit with an altitude of 350-600 km, in order to study fluxes of cosmic ray particles and antiparticles in the wide energy range of ~80 MeV to hundreds of GeV. The results from observations of electron and positron fluxes in 2006-2016 are presented.
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- 2019
11. Cosmic ray electrons and positrons over decade with the PAMELA experiment
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P. Spillantini, O. Adriani, W. Menn, F. Cafagna, V. Bonvicini, A. Bruno, S. Yu. Krutkov, Yu. I. Stozhkov, M. Bongi, M. Merge, L. Marcelli, Maria Teresa Ricci, A. Vacchi, V. V. Mikhailov, S. V. Koldashov, P. Carlson, S. O. Kleymenova, Sergey Koldobskiy, Riccardo Munini, G. C. Barbarino, G. A. Bazilevskaya, D. Campana, C. De Santis, André Monaco, Marco Casolino, G. Zampa, Beatrice Panico, M. Simon, P. Picozza, Yu. T. Yurkin, V. Di Felice, Mark Pearce, S. B. Ricciarini, N. Zampa, V. V. Malakhov, Mirko Boezio, P. Papini, Alexey Leonov, E. Vannuccini, G. I. Vasiliev, R. Sparvoli, Nicola Mori, Roberto Bellotti, A. N. Kvashnin, Matteo Martucci, A. M. Galper, E. Mocchiutti, A. V. Karelin, S. A. Voronov, G. Castellini, A. G. Mayorova, E. A. Bogomolov, G. Osteria, Mikhailov, V. V., Adriani, O., Barbarino, G., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bruno, A., Cafagna, F. S., Campana, D., Carlson, P., Casolino, M., Castellini, G., De Santis, C., Di Felice, V., Galper, A. M., Karelin, A. V., Kleymenova, S. O., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A. A., Malakhov, V. V., Marcelli, L., Martucci, M., Mayorova, A. G., Menn, W., Merge, M., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Papini, P., Panico, B., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasiliev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
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Physics ,History ,Earth's orbit ,Antiparticle ,Settore FIS/04 ,Astrophysics::High Energy Astrophysical Phenomena ,Astronomy ,Cosmic ray ,COSMIC RAYS ,Electron ,Computer Science Applications ,Education ,SOLAR MINIMA ,Positron ,Physics::Space Physics ,Satellite ,WIDE ENERGY RANGE - Abstract
The PAMELA experiment has measured cosmic ray particles and antiparticles fluxes at Earth orbit from June 2006 till January 2016 onboard the Resurs-DK1 satellite. Measurements were carried out during the solar minimum of 23 solar cycle with negative polarity A < 0 of heliospheric magnetic field till the beginning of 24 cycle with positive polarity A > 0. In this paper, the results of observations of electron and positron fluxes are presented in wide energy range from several hundreds MeVs till several TeVs These measurements provide important information to study cosmic ray sources and propagation in Galaxy and heliosphere.
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- 2019
12. High-energy gamma- and cosmic-ray observations with future space-based GAMMA-400 gamma-ray telescope
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Yu. T. Yurkin, A. E. Egorov, S. I. Suchkov, M. F. Runtso, A.V. Bakaldin, V.G. Zverev, N.Yu. Pappe, I. V. Arkhangelskaja, Nikolay Topchiev, A. M. Galper, M. D. Kheymits, A. A. Leonov, Y. u. V. Gusakov, Yu. I. Stozhkov, O.D. Dalkarov, Irina V. Chernysheva, A.I. Arkhangelskiy, and P. Yu. Naumov
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Physics ,Astrophysics::High Energy Astrophysical Phenomena ,QC1-999 ,Dark matter ,Gamma ray ,Cosmic ray ,Celestial sphere ,Astrophysics ,law.invention ,Telescope ,Positron ,law ,Observatory ,Physics::Accelerator Physics ,Fermi Gamma-ray Space Telescope - Abstract
The future space-based GAMMA-400 gamma-ray telescope will be installed on the Navigator platform of the Russian Astrophysical Observatory. A highly elliptical orbit will provide observations for 7-10 years of many regions of the celestial sphere continuously for a long time (~ 100 days). GAMMA-400 will measure gamma-ray fluxes in the energy range from ~ 20 MeV to several TeV and electron + positron fluxes up to ~ 20 TeV. GAMMA-400 will have an excellent separation of gamma rays from the background of cosmic rays and electrons + positrons from protons and an unprecedented angular (~ 0.01° at Eγ = 100 GeV) and energy (~ 1% at Eγ = 100 GeV) resolutions better than for Fermi-LAT, as well as ground-based facilities, by a factor of 5-10. Observations of GAMMA-400 will provide new fundamental data on discrete sources and spectra of gamma-ray emission and electrons + positrons, as well as the nature of dark matter.
- Published
- 2019
13. Multiple Coulomb scattering method to reconstruct low-energy gamma–ray direction in the GAMMA-400 space-based gamma–ray telescope
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M. D. Kheymits, R. Sparvoli, Yu. T. Yurkin, S. I. Suchkov, V. V. Mikhailov, P. Picozza, Alexey Leonov, V. G. Zverev, A. E. Egorov, E.A. Dzhivelikyan, N. P. Topchiev, O. D. Dalkarov, A. M. Galper, and A. V. Bakaldin
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Physics ,Atmospheric Science ,Range (particle radiation) ,Elliptic orbit ,010504 meteorology & atmospheric sciences ,Astrophysics::High Energy Astrophysical Phenomena ,Settore FIS/04 ,Gamma ray ,Aerospace Engineering ,Astronomy and Astrophysics ,Curvature ,01 natural sciences ,Projection (linear algebra) ,Computational physics ,law.invention ,Telescope ,Geophysics ,Space and Planetary Science ,law ,0103 physical sciences ,General Earth and Planetary Sciences ,Angular resolution ,010303 astronomy & astrophysics ,0105 earth and related environmental sciences ,Fermi Gamma-ray Space Telescope - Abstract
The GAMMA-400 currently developing space-based gamma-ray telescope is designed to measure the gamma-ray fluxes in the energy range from ∼20 MeV to several TeV in the highly elliptic orbit (without shadowing the telescope by the Earth) continuously for a long time. The physical characteristics of the GAMMA-400 gamma-ray telescope, especially the angular and energy resolutions (at 100-GeV gamma rays they are ∼0.01° and ∼1%, respectively), allow us to consider this space-based experiment as the next step in the development of extraterrestrial high-energy gamma-ray astronomy. In this paper, a method to improve the reconstruction accuracy of incident angle for low-energy gamma rays in the GAMMA-400 space-based gamma-ray telescope is presented. The special analysis of topology of pair-conversion events in thin layers of converter was performed. Applying the energy dependence of multiple Coulomb scattering for pair components, it is possible to estimate the energies for each particle, and to use these energies as weight in the angle reconstruction procedure. To identify the unique track in each projection the imaginary curvature method is applied. It allows us to obtain significantly better angular resolution in comparison with other methods applied in current space-based experiments. When using this method for 50-MeV gamma rays the GAMMA-400 gamma-ray telescope angular resolution is about 4°.
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- 2019
14. Capabilities of the GAMMA-400 gamma-ray telescope for lateral aperture
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Yu. T. Yurkin, V. V. Mikhailov, S. I. Suchkov, P. Yu. Minaev, A. M. Galper, A. Leonov, Irina V. Chernysheva, A. G. Mayorov, M. D. Kheymits, A. V. Mikhailova, A. V. Bakaldin, and Nikolay Topchiev
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Physics ,History ,Scintillation ,Range (particle radiation) ,Calorimeter (particle physics) ,Physics::Instrumentation and Detectors ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,Antenna aperture ,Detector ,Computer Science Applications ,Education ,law.invention ,Telescope ,Optics ,law ,Lateral aperture ,business ,Fermi Gamma-ray Space Telescope - Abstract
The future GAMMA-400 γ-ray telescope will provide fundamentally new data on discrete sources and spectra of γ-ray emissions and electrons + positrons due to its unique angular and energy resolutions in the wide energy range from 20 MeV up to several TeV. The γ-ray telescope consists of the anticoincidence system (AC), the converter-tracker (C), the time-of-flight system (S1 and S2), the position-sensitive and electromagnetic calorimeters (CC1 and CC2), the scintillation detectors of the calorimeter (S3 and S4) and lateral anticoincidence detectors of the calorimeter (LD). To extend the GAMMA-400 capabilities to measure γ-ray bursts, Monte-Carlo simulations were performed for lateral aperture of the one of the versions of GAMMA-400. Second-level trigger based on signals from CC2, LD, S3, and S4 allows us to detect γ-ray bursts in the energy range of ~10-300 MeV with high effective area about 1 m2.
- Published
- 2020
15. A technique for selecting γ rays with energies above 50 GeV from the background of charged particles in the GAMMA-400 space-based γ-ray telescope
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Yu. V. Gusakov, M. D. Kheymits, V. G. Zverev, V. V. Kadilin, S. I. Suchkov, N. P. Topchiev, I. V. Arkhangelskaja, Yu. T. Yurkin, P. Yu. Naumov, Vladimir Kaplin, A. M. Galper, A.I. Arkhangelskiy, M. F. Runtso, and Alexey Leonov
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Physics ,Calorimeter (particle physics) ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,Cosmic ray ,Space (mathematics) ,01 natural sciences ,Charged particle ,law.invention ,Nuclear physics ,Telescope ,law ,0103 physical sciences ,010303 astronomy & astrophysics ,Instrumentation - Abstract
The task of selecting neutral γ rays from the background of charged particle fluxes, which arises in investigation of high-energy (>50 GeV) cosmic rays, is complicated by the presence of the backsplash effect. The backsplash is composed of a great number of low-energy (~1 MeV) particles produced in an electromagnetic shower being developed in the calorimeter of the γ-ray telescope. A technique of charged particle rejection using an anticoincidence system has been developed. A method for discriminating events of charged particle detection from γ-ray detection events accompanied by the backsplash phenomenon is proposed. This method is based on the difference of the signals in time and makes it possible to maintain a high detection efficiency even for high-energy γ rays.
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- 2016
16. Secondary positrons and electrons in near-Earth space in the PAMELA experiment
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A. G. Mayorov, Alfonso Monaco, S. Y. Krutkov, D. Campana, Alexey Leonov, Matteo Martucci, M. Merge, Marco Casolino, Sergey Koldobskiy, Yu. T. Yurkin, G. C. Barbarino, M. Bongi, N. Zampa, V. Bonvicini, P. Picozza, G. Zampa, Beatrice Panico, L. Marcelli, Andrea Vacchi, E. Mocchiutti, V. Di Felice, A. Bruno, A. A. Kvashnin, M. F. Runtso, S. A. Voronov, Sergey Koldashov, M. Simon, Mirko Boezio, Riccardo Munini, A. V. Karelin, Yuri Stozhkov, V. V. Malakhov, O. Adriani, W. Menn, G. A. Bazilevskaya, G. Osteria, P. Spillantini, S. Bottai, G. Castellini, Roberto Bellotti, A. M. Galper, E. A. Bogomolov, Marco Ricci, A. N. Kvashnin, Mark Pearce, S. B. Ricciarini, P. Papini, E. Vannuccini, G. I. Vasilyev, Nicola Mori, C. De Santis, V. V. Mikhailov, R. Sparvoli, Per Carlson, F. Cafagna, Mikhailov, V. V., Adriani, O., Bazilevskaya, G. A., Barbarino, G. C., Bellotti, R., Bogomolov, E. A., Boezio, M., Bonvicini, V., Bongi, M., Bottai, S., Bruno, A., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Galper, A. M., De Santis, C., Di Felice, V., Zampa, G., Zampa, N., Casolino, M., Campana, D., Karelin, A. V., Carlson, P., Castellini, G., Cafagna, F., Kvashnin, A. A., Kvashnin, A. N., Koldashov, S. V., Koldobskiy, S. A., Krutkov, S. Y., Leonov, A. A., Mayorov, A. G., Malakhov, V. V., Martucci, M., Marcelli, L., Menn, W., Merge, M., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Picozza, P., Pearce, M., Ricci, M., Ricciarini, S. B., Runtso, M. F., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., and Yurkin, Y. T.
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Settore FIS/01 ,Physics ,PAMELA detector ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,General Physics and Astronomy ,Magnetosphere ,Cosmic ray ,Astrophysics ,Electron ,01 natural sciences ,law.invention ,Atmosphere ,Physics and Astronomy (all) ,symbols.namesake ,Atmosphere of Earth ,Positron ,law ,Van Allen radiation belt ,Physics::Space Physics ,0103 physical sciences ,symbols ,Cosmology ,Earth (planet) ,Earth atmosphere ,Orbits ,Positrons ,Radiation belts Different mechanisms ,Electron flux ,Magnetic spectrometers ,Near-earth spaces ,Secondary particles ,Trapped particle ,Astrophysics::Earth and Planetary Astrophysics ,010306 general physics - Abstract
Fluxes of electrons and positrons with energies above ~100 MeV in the near-Earth space are measured with the PAMELA magnetic spectrometer aboard the Resurs DK-1 satellite launched on June 15, 2006, into a quasipolar orbit with an altitude of 350–600 km and an inclination of 70°. Calculating the trajectories of detected electrons and positrons in the magnetosphere of the Earth allows us to determine their origin and isolate particles produced during interaction between cosmic rays and the residual atmosphere. Spatial distributions of albedo, quasitrapped, and trapped (in the radiation belt) positrons and electrons are presented. The ratio of positron and electron fluxes suggests that the fluxes of trapped particles of the radiation belt and quasitrapped secondary particles have different mechanisms of formation.
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- 2017
17. The beam test of anticoincidence scintillation detector prototype with SiPM readout and perspectives of GRBs studies for space-based gamma-ray telescope GAMMA-400
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I. V. Arkhangelskaja, E. N. Chasovikov, A. V. Bakaldin, Yu. I. Stozhkov, Alexey Leonov, Irina V. Chernysheva, S. I. Suchkov, A. M. Galper, N. Yu. Pappe, M. F. Runtso, O. D. Dalkarov, N. P. Topchiev, Yu. V. Gusakov, A. I. Arkhangelskiy, A. E. Egorov, M. D. Kheymits, and Yu. T. Yurkin
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Physics ,History ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,Astrophysics::Instrumentation and Methods for Astrophysics ,Scintillator ,Space (mathematics) ,Computer Science Applications ,Education ,Optics ,Silicon photomultiplier ,business ,Beam (structure) ,Fermi Gamma-ray Space Telescope - Abstract
The GAMMA-400 project will be the new generation of satellite gamma-observatory. GAMMA-400 space-based gamma-ray telescope represents the core of the scientific complex intended to perform a search for signatures of dark matter in the cosmic gamma-emission, measurements of diffuse gamma-emission characteristics, investigation of extended and point gamma-ray sources, studying of high energy component of gamma-ray bursts and solar flares emission. Four fast plastic sub-detectors of the gamma-ray telescope are included in fast trigger logic in the main telescope aperture. This aperture expected angular and energy resolution are ∼0.01° and ∼1-2% respectively for gammas with the energy >100 GeV and electron/protons rejection factor ∼5-105. Prototype of anticoincidence detector based on long BC-408 scintillators with SiPM readout for gamma-ray telescope was tested on a 300 MeV secondary positron beam of synchrotron C-25P «PAKHRA» of Lebedev Physical Institute in Russia. The measurement setup, design concepts for the prototype detector and chosen solutions together with some test results are discussed. Two other apertures (additional and lateral) allow analyzing transient events not required precision angular resolution, for examples, GRBs and solar flares. Similar plastics sub-detectors included in their fast trigger logic. Using of all three apertures allows making more effective observations of GRBs (better signal to noise ratio), more detailed study of its high energy afterglow due long term measurements (because of high apogee orbit provides low background variations with time) and detailed analysis of the sources luminosity variability (spectral, angular and temporal).
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- 2019
18. Investigations of SiPM based large scintillation detectors
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S. I. Suchkov, A. E. Egorov, M. F. Runtso, Yu. T. Yurkin, Alexey Leonov, P. P. Naumov, E. N. Chasovikov, P. Yu. Naumov, A. M. Galper, I. V. Arkhangelskaja, A.I. Arkhangelskiy, and Nikolay Topchiev
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History ,Scintillation ,Optics ,Materials science ,Silicon photomultiplier ,business.industry ,Detector ,business ,Computer Science Applications ,Education - Abstract
Different types of light concentration for large fast scintillation detectors with silicon photomutipliers as photosensors for the satellite based gamma-ray telescope GAMMA- 400 are analysed. Some proposals for their possible implementations are made.
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- 2019
19. Evidence of energy and charge sign dependence of the recovery time for the December 2006 Forbush event measured by the PAMELA experiment
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D. Campana, Ian G. Richardson, Sergey Koldashov, Marco Casolino, Yu. T. Yurkin, A. V. Karelin, S. Y. Krutkov, Mark Pearce, S. B. Ricciarini, S. A. Voronov, G. Castellini, Steven Stochaj, V. Di Felice, P. Papini, G. Zampa, Beatrice Panico, E. Vannuccini, Marco Ricci, Riccardo Munini, M. Bongi, A. G. Mayorov, Alexey Leonov, A. N. Kvashnin, P. Picozza, G. Osteria, Alfonso Monaco, R. Sparvoli, P. Spillantini, G. I. Vasilyev, O. Adriani, W. Menn, James M. Ryan, M. Merge, V. Bonvicini, Mirko Boezio, E. Mocchiutti, M. S. Potgieter, Y. I. Stozhkov, Nicola Mori, V. V. Mikhailov, L. Marcelli, Roberto Bellotti, C. De Santis, P. Carlson, A. M. Galper, A. Bruno, Sergey Koldobskiy, G. C. Barbarino, E. C. Christian, Matteo Martucci, N. Zampa, G. A. de Nolfo, G. A. Bazilevskaya, F. Cafagna, Andrea Vacchi, S. Bottai, V. V. Malakhov, M. Simon, Munini, R., Boezio, M., Bruno, A., Christian, E. C., Nolfo, G. A. D., Felice, V. D., Martucci, M., Merge, M., Richardson, I. G., Ryan, J. M., Stochaj, S., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Bongi, M., Bonvicini, V., Bottai, S., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., Santis, C. D., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Mayorov, A. G., Menn, W., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Osteria, G., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., and Potgieter, M. S.
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010504 meteorology & atmospheric sciences ,cosmic rays ,Sun: coronal mass ejections (CMEs) ,Sun: heliosphere ,Sun: particle emission ,Astronomy and Astrophysics ,Space and Planetary Science ,Astrophysics::High Energy Astrophysical Phenomena ,FOS: Physical sciences ,Cosmic ray ,Astrophysics ,01 natural sciences ,Physics - Space Physics ,0103 physical sciences ,010303 astronomy & astrophysics ,cosmic ray ,0105 earth and related environmental sciences ,Physics ,High Energy Astrophysical Phenomena (astro-ph.HE) ,Settore FIS/04 ,Space Physics (physics.space-ph) ,Physics::Space Physics ,Astrophysics - High Energy Astrophysical Phenomena ,Event (particle physics) ,Sign (mathematics) - Abstract
New results on the short-term galactic cosmic-ray (GCR) intensity variation (Forbish decrease) in 2006 December measured by the PAMELA instrument are presented. Forbush decreases are sudden suppressions of the GCR intensities, which are associated with the passage of interplanetary transients such as shocks and interplanetary coronal mass ejections (ICMEs). Most of the past measurements of this phenomenon were carried out with groundbased detectors such as neutron monitors or muon telescopes. These techniques allow only the indirect detection of the overall GCR intensity over an integrated energy range. For the first time, thanks to the unique features of the PAMELA magnetic spectrometer, the Forbush decrease, commencing on 2006 December 14 and following a CME at the Sun on 2006 December 13, was studied in a wide rigidity range (0.4-20 GV) and for different species of GCRs detected directly in space. The daily averaged GCR proton intensity was used to investigate the rigidity dependence of the amplitude and the recovery time of the Forbush decrease. Additionally, for the first time, the temporal variations in the helium and electron intensities during a Forbush decrease were studied. Interestingly, the temporal evolutions of the helium and proton intensities during the Forbush decrease were found to be in good agreement, while the low rigidity electrons (
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- 2018
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20. Solar Energetic Particle Events Observed by the PAMELA Mission
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G. Osteria, Sergey Koldashov, Nicola Mori, Mirko Boezio, S. Y. Krutkov, A. V. Karelin, S. A. Voronov, Massimo Bongi, Yu. T. Yurkin, Alfonso Monaco, L. Marcelli, E. R. Christian, Sergey Koldobskiy, V. Di Felice, G. Castellini, G. A. Bazilevskaya, N. Zampa, Roberto Bellotti, V. V. Malakhov, A. M. Galper, Ian G. Richardson, Yuri Stozhkov, W. Menn, S. Bottai, E. Vannuccini, E. A. Bogomolov, M. Ricci, Roberta Sparvoli, A. N. Kvashnin, Marco Casolino, P. Spillantini, Alexey Leonov, Giancarlo Barbarino, R. Munini, G. Vasilyev, O. Adriani, Per Carlson, James M. Ryan, Andrea Vacchi, Michal Simon, S. B. Ricciarini, A. Bruno, G. A. de Nolfo, A. G. Mayorov, V. Bonvicini, Mark Pearce, D. Campana, E. Mocchiutti, Steven Stochaj, P. Picozza, M. Merge, C. De Santis, B. Panico, Gianluigi Zampa, M. Martucci, Paolo Papini, V. V. Mikhailov, F. Cafagna, Bruno, A., Bazilevskaya, G. A., Boezio, M., Christian, E. R., Nolfo, G. A. D., Martucci, M., Merge, M., Mikhailov, V. V., Munini, R., Richardson, I. G., Ryan, J. M., Stochaj, S., Adriani, O., Barbarino, G. C., Bellotti, R., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., Santis, C. D., Felice, V. D., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Mayorov, A. G., Menn, W., Mocchiutti, E., Monaco, A., Mori, N., Osteria, G., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
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coronal mass ejections (CMEs) ,Sun: flares ,space vehicle ,010504 meteorology & atmospheric sciences ,acceleration of particles ,solar-terrestrial relations ,space vehicles ,Sun: particle emission ,Astronomy and Astrophysics ,Space and Planetary Science ,FOS: Physical sciences ,Astrophysics ,01 natural sciences ,Spectral line ,Acceleration ,0103 physical sciences ,Neutron ,010303 astronomy & astrophysics ,acceleration of particle ,Solar and Stellar Astrophysics (astro-ph.SR) ,0105 earth and related environmental sciences ,Physics ,Sun: flare ,solar-terrestrial relation ,Solar energetic particles ,Settore FIS/04 ,Shock (mechanics) ,Particle acceleration ,Astrophysics - Solar and Stellar Astrophysics ,Antimatter ,Physics::Space Physics ,Particle - Abstract
Despite the significant progress achieved in recent years, the physical mechanisms underlying the origin of solar energetic particles (SEPs) are still a matter of debate. The complex nature of both particle acceleration and transport poses challenges to developing a universal picture of SEP events that encompasses both the low-energy (from tens of keV to a few hundreds of MeV) observations made by space-based instruments and the GeV particles detected by the worldwide network of neutron monitors in ground-level enhancements (GLEs). The high-precision data collected by the Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics (PAMELA) satellite experiment offer a unique opportunity to study the SEP fluxes between $\sim$80 MeV and a few GeV, significantly improving the characterization of the most energetic events. In particular, PAMELA can measure for the first time with good accuracy the spectral features at moderate and high energies, providing important constraints for current SEP models. In addition, the PAMELA observations allow the relationship between low and high-energy particles to be investigated, enabling a clearer view of the SEP origin. No qualitative distinction between the spectral shapes of GLE, sub-GLE and non-GLE events is observed, suggesting that GLEs are not a separate class, but are the subset of a continuous distribution of SEP events that are more intense at high energies. While the spectral forms found are to be consistent with diffusive shock acceleration theory, which predicts spectral rollovers at high energies that are attributed to particles escaping the shock region during acceleration, further work is required to explore the relative influences of acceleration and transport processes on SEP spectra., Comment: 26 pages, 13 figures, 2 tables
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- 2018
21. Proton Fluxes Measured by the PAMELA Experiment from the Minimum to the Maximum Solar Activity for Solar Cycle 24
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Yu. T. Yurkin, V. Di Felice, M. S. Potgieter, Mark Pearce, S. B. Ricciarini, V. Bonvicini, P. Spillantini, Y. I. Stozhkov, A. N. Kvashnin, Riccardo Munini, L. Marcelli, Andrea Vacchi, P. Papini, E. Vannuccini, A. Bruno, Roberto Bellotti, A. M. Galper, R. Sparvoli, O. Adriani, A. G. Mayorov, S. Y. Krutkov, V. V. Mikhailov, W. Menn, V. V. Malakhov, M. Simon, Sergey Koldobskiy, A. A. Leonov, M. Bongi, G. C. Barbarino, Marco Ricci, N. Zampa, N. Marcelli, Alfonso Monaco, G. A. Bazilevskaya, P. Picozza, A. V. Karelin, S. A. Voronov, Jan-Louis Raath, Mirko Boezio, M. Merge, Matteo Martucci, S. Bottai, E. Mocchiutti, G. Osteria, F. Cafagna, G. Castellini, Per Carlson, C. De Santis, G. I. Vasilyev, Nicola Mori, G. Zampa, Beatrice Panico, Sergey Koldashov, D. Campana, Marco Casolino, Martucci, M., Munini, R., Boezio, M., Felice, V. D., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., Santis, C. D., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Marcelli, N., Mayorov, A. G., Menn, W., Merge, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Osteria, G., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., Potgieter, M. S., and Raath, J. L.
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Astroparticle physics ,Physics ,astroparticle physics ,cosmic rays ,Sun: heliosphere ,Astronomy and Astrophysics ,Space and Planetary Science ,010504 meteorology & atmospheric sciences ,Proton ,Astrophysics::High Energy Astrophysical Phenomena ,Settore FIS/04 ,astroparticle physic ,Cosmic ray ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Astrophysics ,Solar cycle 24 ,01 natural sciences ,0103 physical sciences ,Physics::Space Physics ,010303 astronomy & astrophysics ,cosmic ray ,Intensity (heat transfer) ,0105 earth and related environmental sciences - Abstract
Precise measurements of the time-dependent intensity of the low-energy (
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- 2018
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22. Trapped Positrons and Electrons in the Inner Radiation Belt According to Data of the PAMELA Experiment
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Sergey Koldobskiy, G. C. Barbarino, Sergey Koldashov, Mirko Boezio, Per Carlson, Alfonso Monaco, Massimo Bongi, S. Y. Krutkov, M. F. Runtso, F. Cafagna, Roberto Bellotti, Riccardo Munini, Yu. V. Mikhailova, G. A. Bazilevskaya, A. M. Galper, Yu. T. Yurkin, S. A. Voronov, M. Merge, G. I. Vasilyev, A. G. Mayorov, V. Bonvicini, R. Sparvoli, P. Papini, E. A. Bogomolov, Mark Pearce, D. Campana, A. A. Kvashnin, C. De Santis, O. Adriani, E. Mocchiutti, L. Marcelli, A. Vacchi, M. Simon, V. Di Felice, Matteo Martucci, G. Zampa, W. Menn, A. Bruno, V. V. Mikhailov, E. Vannuccini, B. Panico, S. Bottai, V. V. Malakhov, G. Osteria, N. Zampa, G. Castellini, Yuri Stozhkov, Nicola Mori, Alexey Leonov, P. Picozza, Marco Casolino, M. Ricci, A. V. Karelin, A. N. Kvashnin, P. Spillantini, S. B. Ricciarini, Mikhailov, V. V., Adriani, O., Bazilevskaya, G. A., Barbarino, G. C., Bellotti, R., Bogomolov, E. A., Boezio, M., Bonvicini, V., Bongi, M., Bottai, S., Bruno, A., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Galper, A. M., De Santis, C., Di Felice, V., Zampa, G., Zampa, N., Casolino, M., Campana, D., Karelin, A. V., Carlson, P., Castellini, G., Cafagna, F., Kvashnin, A. A., Kvashnin, A. N., Koldashov, S. V., Koldobskiy, S. A., Krutkov, S. Y., Leonov, A. A., Mayorov, A. G., Malakhov, V. V., Martucci, M., Marcelli, L., Menn, W., Merge, M., Mikhailova, Y. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Picozza, P., Pearce, M., Ricci, M., Ricciarini, S. B., Runtso, M. F., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., and Yurkin, Y. T.
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Nuclear and High Energy Physics ,Elliptic orbit ,Astrophysics::High Energy Astrophysical Phenomena ,Magnetosphere ,Electron ,01 natural sciences ,Nuclear physics ,symbols.namesake ,Atomic and Molecular Physics ,0103 physical sciences ,INTERNATIONAL SPACE STATION ,SPECTROMETER ,010306 general physics ,Atomic and Molecular Physics, and Optics ,Physics ,Settore FIS/01 ,Range (particle radiation) ,Spectrometer ,010308 nuclear & particles physics ,DARK MATTER ,COSMIC RAYS ,Earth's magnetic field ,Van Allen radiation belt ,Physics::Space Physics ,symbols ,Physics::Accelerator Physics ,Satellite ,and Optics - Abstract
Measurements of secondary-electron and secondary-positron fluxes below the geomagnetic cutoff in near-Earth space were performed by means of the PAMELA magnetic spectrometer installed on board the Resurs-DK1 satellite launched on June 15, 2006, in an elliptical orbit of inclination 70A degrees and altitude 350 to 600 km. This spectrometer permits measuring the fluxes of electrons and positrons over a wide energy range, as well as determining their spatial distributions to a precision of about 2A degrees. A calculation of particle trajectories in the geomagnetic field makes it possible to separate electrons and positrons originating from cosmic-ray interactions in the Earth's magnetosphere. The spatial distributions of quasitrapped, trapped, and short-lived albedo positrons and electrons of energy above 70 MeV in the radiation belt were analyzed. The ratio of the electron-to-positron fluxes and the energy spectra of the electrons and positrons in question are indicative of different productionmechanisms for stably trapped and quasitrapped secondary particles.
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- 2018
23. Time dependence of the helium flux measured by PAMELA
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Matteo Martucci, M. Simon, Sergey Koldobskiy, G. C. Barbarino, V. V. Mikhailov, P. Carlson, Alexey Leonov, D. Campana, Roberto Bellotti, A. M. Galper, S. Y. Krutkov, G. Zampa, Beatrice Panico, A. G. Mayorov, R. Sparvoli, Marco Casolino, A. N. Kvashnin, Riccardo Munini, O. Adriani, E. Mocchiutti, F. Cafagna, W. Menn, Nicola Mori, S. A. Voronov, Yu. T. Yurkin, G. Castellini, Massimo Bongi, E. A. Bogomolov, P. Picozza, G. I. Vasilyev, P. Spillantini, C. De Santis, V. V. Malakhov, Maria Teresa Ricci, S. V. Koldashov, Mark Pearce, S. B. Ricciarini, P. Papini, E. Vannuccini, L. Marcelli, A. Vacchi, M. Merge, V. Bonvicini, A. Bruno, Y. I. Stozhkov, André Monaco, A. V. Karelin, G. Osteria, N. Zampa, Mirko Boezio, and G. A. Bazilevskaya
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Physics ,Proton ,Astrophysics::High Energy Astrophysical Phenomena ,Phase (waves) ,Flux ,chemistry.chemical_element ,Cosmic ray ,Astrophysics ,Solar cycle ,chemistry ,QUIET ,Physics::Space Physics ,Heliosphere ,Helium - Abstract
The last solar cycle has presented a peculiarly long quiet phase with consequent minimum modulation conditions for cosmic rays. The proton and electron spectra were measured from July 2006 to December 2009 by PAMELA experiment, providing fundamental information about the transport and modulation of cosmic rays inside the heliosphere. These studies allow to obtain a more complete description of the cosmic radiation. In this picture the time dependence of the helium spectrum become very important to constrain parameters of the actual solar modulation model. The crucial point for this analysis is the selection of a dataset of helium events which ensure high statistics with a very low contamination. In this paper the definition of the selection criteria for helium events with data taken from July 2006 to June 2014 by PAMELA experiment is reported.
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- 2017
24. Detectability of dark matter subhalos by means of the GAMMA-400 telescope
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A. M. Galper, A. A. Leonov, S. I. Suchkov, Yu. T. Yurkin, Nikolay Topchiev, A. E. Egorov, and M. D. Kheymits
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Physics ,High Energy Astrophysical Phenomena (astro-ph.HE) ,Nuclear and High Energy Physics ,education.field_of_study ,010308 nuclear & particles physics ,Population ,Dark matter ,FOS: Physical sciences ,Astrophysics ,Joint analysis ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Galaxy ,law.invention ,Telescope ,High Energy Physics - Phenomenology ,High Energy Physics - Phenomenology (hep-ph) ,WIMP ,law ,0103 physical sciences ,education ,Astrophysics - High Energy Astrophysical Phenomena ,010303 astronomy & astrophysics - Abstract
We investigated the detectability of Galactic subhalos with masses $(10^6-10^9)M_{\odot}$ formed by annihilating WIMP dark matter by the planned GAMMA-400 gamma-ray telescope. The inner structure of dark matter subhalos and their distribution in the Galaxy were taken from corresponding simulations. We showed that the expected gamma-ray flux from subhalos strongly depends on WIMP mass and subhalo concentration, but less strongly depends on the subhalo mass. In an optimistic case we may expect the flux of 10-100 ph/year above 100 MeV from the closest and most massive subhalos, which would be detectable sources for GAMMA-400. However, resolving the inner structure of subhalos might be possible only by the joint analysis of the future GAMMA-400 data and data from other telescopes due to smallness of fluxes. Also we considered the recent subhalo candidates 3FGL J2212.5+0703 and J1924.8-1034 within the framework of our model. We concluded that it is very unlikely that these sources belong to the subhalo population., Was presented at International Symposium on Cosmic Rays and Astrophysics (ISCRA-2017), 20-22 June 2017, Moscow, Russia
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- 2017
25. Force-field parameterization of the galactic cosmic ray spectrum: Validation for Forbush decreases
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R. Carbone, Sergey Koldobskiy, G. C. Barbarino, S. Y. Krutkov, V. Formato, A. V. Karelin, S. A. Voronov, G. A. Kovaltsov, N. Zampa, G. A. Bazilevskaya, E. A. Bogomolov, Laura Rossetto, V. Bonvicini, Yu. T. Yurkin, Y. I. Stozhkov, V. G. Zverev, P. Picozza, G. Osteria, P. Spillantini, Nicola Mori, M. Simon, N. De Simone, E. Mocchiutti, L. Marcelli, Alfonso Monaco, A. Vacchi, V. Di Felice, R. Sparvoli, M. Merge, A. Bruno, G. Zampa, Beatrice Panico, Marco Ricci, G. I. Vasilyev, Roberto Bellotti, A. M. Galper, C. De Santis, A. N. Kvashnin, Riccardo Munini, Mark Pearce, S. B. Ricciarini, Per Carlson, V. V. Malakhov, P. Papini, E. Vannuccini, Ilya Usoskin, V. V. Mikhailov, C. De Donato, F. Cafagna, Matteo Martucci, Sergey Koldashov, A. G. Mayorov, G. Castellini, Valentina Scotti, Alexey Leonov, F. Palma, Mirko Boezio, D. Campana, Ritabrata Sarkar, Marco Casolino, O. Adriani, S. Bottai, W. Menn, M. Bongi, C. Pizzolotto, G., Usoskin, G. A., Kovaltsov, O., Adriani, G. C., Barbarino, G. A., Bazilevskaya, R., Bellotti, M., Boezio, E. A., Bogomolov, M., Bongi, V., Bonvicini, S., Bottai, A., Bruno, F., Cafagna, D., Campana, R., Carbone, P., Carlson, M., Casolino, G., Castellini, C., De Donato, C., De Santi, N., De Simone, V., Di Felice, V., Formato, A. M., Galper, A. V., Karelin, S. V., Koldashov, S. A., Koldobskiy, S. Y., Krutkov, A. N., Kvashnin, A. A., Leonov, V., Malakhov, L., Marcelli, M., Martucci, A. G., Mayorov, W., Menn, M., Mergè, V. V., Mikhailov, E., Mocchiutti, A., Monaco, N., Mori, Munini, Riccardo, G., Osteria, F., Palma, B., Panico, P., Papini, M., Pearce, P., Picozza, C., Pizzolotto, M., Ricci, S. B., Ricciarini, L., Rossetto, R., Sarkar, V., Scotti, V. M., Simon, Sparvoli, P., Spillantini, Y. I., Stozhkov, P., Vacchi, E., Vannuccini, G. I., Vasilyev, S. A., Voronov, Y. T., Yurkin, G., Zampa, N., Zampa, V. G., Zverev, Usoskin, I. G., Kovaltsov, G. A., Adriani, O., Barbarino, Giancarlo, Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., De Donato, C., De Santis, C., De Simone, N., Di Felice, V., Formato, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergé, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Pizzolotto, C., Ricci, M., Ricciarini, S. B., Rossetto, L., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., and Zverev, V. G.
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Atmospheric Science ,Astrophysics::High Energy Astrophysical Phenomena ,Aerospace Engineering ,Cosmic ray ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Astrophysics ,Cosmic rays ,Forbush decrease ,Heliosphere ,Space and Planetary Science ,Physics::Geophysics ,Energy spectrum ,Settore FIS/01 ,Physics ,Spectrum (functional analysis) ,Astronomy ,Astronomy and Astrophysics ,Force field parameterization ,Geophysics ,Physics::Space Physics ,General Earth and Planetary Sciences ,Astrophysics::Earth and Planetary Astrophysics ,Parametrization - Abstract
A useful parametrization of the energy spectrum of galactic cosmic rays (GCR) near Earth is offered by the so-called force-field model which describes the shape of the entire spectrum with a single parameter, the modulation potential. While the usefulness of the force-field approximation has been confirmed for regular periods of solar modulation, it was not tested explicitly for disturbed periods, when \GCR\ are locally modulated by strong interplanetary transients. Here we use direct measurements of protons and α -particles performed by the \PAMELA\ space-borne instrument during December 2006, including a major Forbush decrease, in order to directly test the validity of the force-field parameterization. We conclude that (1) The force-field parametrization works very well in describing the energy spectra of protons and α -particles directly measured by \PAMELA\ outside the Earths atmosphere; (2) The energy spectrum of \GCR\ can be well parameterized by the force-field model also during a strong Forbush decrease; (3) The estimate of the \GCR\ modulation parameter, obtained using data from the world-wide neutron monitor network, is in good agreement with the spectra directly measured by \PAMELA\ during the studied interval. This result is obtained on the basis of a single event analysis, more events need to be analyzed.
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- 2015
26. Reentrant albedo proton fluxes measured by the PAMELA experiment
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D. Campana, S. Bottai, P. Spillantini, F. Cafagna, F. Palma, Roberto Bellotti, A. M. Galper, Marco Casolino, A. N. Kvashnin, Valerio Formato, V. V. Malakhov, A. V. Karelin, G. Osteria, Yu. T. Yurkin, Nicola Mori, V. Bonvicini, Per Carlson, Mirko Boezio, Alfonso Monaco, Y. I. Stozhkov, Sergey Koldashov, Alexey Leonov, M. Bongi, S. Y. Krutkov, V. Di Felice, M. Merge, Riccardo Munini, A. G. Mayorov, N. Zampa, Ritabrata Sarkar, G. I. Vasilyev, G. Zampa, Beatrice Panico, S. A. Voronov, G. A. Bazilevskaya, Roberta Sparvoli, Valentina Scotti, V. V. Mikhailov, C. De Santis, C. De Donato, Matteo Martucci, P. Picozza, E. A. Bogomolov, L. Marcelli, A. Vacchi, O. Adriani, W. Menn, A. Bruno, Marco Ricci, Mark Pearce, S. B. Ricciarini, G. Castellini, P. Papini, E. Vannuccini, E. Mocchiutti, Sergey Koldobskiy, G. C. Barbarino, M. Simon, and N. De Simone
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Physics ,Proton ,Nuclear Theory ,Cosmic ray ,Astrophysics ,Albedo ,Kinetic energy ,Magnetic field ,Nuclear physics ,Geophysics ,Reentrancy ,Space and Planetary Science ,Antimatter ,Physics::Accelerator Physics ,Nuclear Experiment - Abstract
We present a precise measurement of downward going albedo proton fluxes for kinetic energy above similar to 70 MeV performed by the Payload for Antimatter Matter Exploration and Light-nuclei Astrop ...
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- 2015
27. Measurement of the large-scale anisotropy of cosmic rays in the PAMELA experiment
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P. Spillantini, S. A. Koldobskii, E. Mocchiutti, G. I. Vasil’ev, V. Bonvicini, Mark Pearce, S. B. Ricciarini, Marco Ricci, Roberta Sparvoli, C. De Santis, P. Papini, Per Carlson, M. Bongi, E. Vannuccini, S. Bottai, C. De Donato, M. Simon, L. Marcelli, A. Vacchi, V. Di Felice, V. V. Malakhov, Mirko Boezio, A. Bruno, Alfonso Monaco, Sergey Koldashov, Riccardo Munini, E. A. Bogomolov, W. Menn, P. Picozza, Valerio Formato, S. Yu. Krutkov, F. Cafagna, Yu. T. Yurkin, R. Carbone, M. Merge, G. Osteria, N. Zampa, O. Adriani, S. A. Voronov, D. Campana, A. G. Maiorov, Alexey Leonov, V. V. Mikhailov, Nicola Mori, Marco Casolino, Ritabrata Sarkar, Valentina Scotti, G. Castellini, F. Palma, G. A. Bazilevskaya, Matteo Martucci, Roberto Bellotti, A. M. Galper, G. C. Barbarino, A. N. Kvashnin, A. V. Karelin, N. De Simone, G. Zampa, Beatrice Panico, M. L. Rosetto, A. V., Karelin, O., Adriani, G. C., Barbarino, G. A., Bazilevskaya, R., Bellotti, M., Boezio, E. A., Bogomolov, M., Bongi, V., Bonvicini, S., Bottai, A., Bruno, A., Vacchi, E., Vannuccini, G. I., Vasil’Ev, S. A., Voronov, A. M., Galper, C., De Donato, C., De Santi, N., De Simone, V., Di Felice, G., Zampa, N., Zampa, F., Cafagna, D., Campana, R., Carbone, P., Carlson, M., Casolino, G., Castellini, A. N., Kvashnin, S. V., Koldashov, S. A., Koldobskii, S. Y., Krutkov, A. A., Leonov, L., Marcelli, M., Martucci, A. G., Maiorov, V. V., Malakhov, W., Menn, M., Mergè, V. V., Mikhailov, E., Mocchiutti, A., Monaco, N., Mori, Munini, Riccardo, G., Osteria, F., Palma, B., Panico, P., Papini, M., Pearce, P., Picozza, M., Ricci, S. B., Ricciarini, M. L., Rosetto, M., Simon, R., Sarkar, V., Scotti, R., Sparvoli, P., Spillantini, V., Formato, Y. T., Yurkin, Karelin, A. V., Adriani, O., Barbarino, Giancarlo, Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Vacchi, A., Vannuccini, E., Vasil’Ev, G. I., Voronov, S. A., Gal’Per, A. M., De Donato, C., De Santis, C., De Simone, N., Di Felice, V., Zampa, G., Zampa, N., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., Kvashnin, A. N., Koldashov, S. V., Koldobskii, S. A., Krut’Kov, S. Y. u., Leonov, A. A., Marcelli, L., Martucci, M., Maiorov, A. G., Malakhov, V. V., Menn, W., Mergè, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Rosetto, M. L., Simon, M., Sarkar, R., Scotti, V., Sparvoli, R., Spillantini, P., Formato, V., and Yurkin, Y. u. T.
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Physics ,Physics and Astronomy (miscellaneous) ,Scale (ratio) ,Settore FIS/04 ,Astronomy ,Cosmic ray ,anisotropy ,Astrophysics ,Galaxy ,satellite experiment ,Physics::Geophysics ,Dipole ,cosmic rays ,PAMELA ,Equatorial coordinate system ,Physics::Space Physics ,Magnitude (astronomy) ,Cosmic Rays, anisotropy, PAMELA ,Satellite ,Anisotropy ,Physics::Atmospheric and Oceanic Physics - Abstract
Large-scale anisotropy or so-called sidereal-diurnal wave has been detected in the PAMELA satellite experiment in the time interval of 2006–2014. The magnitude of anisotropy has been measured simultaneously for the Southern and Northern Hemispheres in the equatorial coordinate system. The results confirm the data of ground-based experiments.
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- 2015
28. Measuring the albedo deuteron flux in the PAMELA satellite experiment
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Alfonso Monaco, G. Osteria, M. Merge, Nicola Mori, D. Campana, S. A. Voronov, Matteo Martucci, Per Carlson, Roberta Sparvoli, N. Zampa, Yu. T. Yurkin, Marco Casolino, Laura Rossetto, S. Y. Krutkov, G. I. Vasilyev, E. A. Bogomolov, A. G. Mayorov, F. Palma, R. Carbone, C. Pizzolotto, Valerio Formato, M. Simon, Riccardo Munini, L. Marcelli, Sergey Koldobskiy, W. Menn, C. De Santis, G. C. Barbarino, A. Vacchi, Marco Ricci, Mark Pearce, S. B. Ricciarini, V. V. Malakhov, C. De Donato, A. Bruno, A.A. Kvashnin, V. Di Felice, P. Papini, G. Zampa, Beatrice Panico, Yuri Stozhkov, Valentina Scotti, E. Vannuccini, P. Picozza, P. Spillantini, Alexey Leonov, N. De Simone, V. G. Zverev, Mirko Boezio, V. Bonvicini, O. Adriani, Sergey Koldashov, E. Mocchiutti, V. V. Mikhailov, Ritabrata Sarkar, S. Bottai, G. A. Bazilevskaya, G. Castellini, M. Bongi, F. Cafagna, I. A. Danilchenko, A. V. Karelin, Roberto Bellotti, A. M. Galper, A. N. Kvashnin, S., Koldobskiya, O., Adriani, G. C., Barbarino, G. A., Bazilevskaya, R., Bellotti, M., Boezio, E. A., Bogomolov, M., Bongi, V., Bonvicini, S., Bottai, A., Bruno, F., Cafagna, D., Campana, R., Carbone, P., Carlson, M., Casolino, G., Castellini, I. A., Danilchenko, C., De Donato, C., De Santi, N., De Simone, V., Di Felice, V., Formato, A. M., Galper, A. V., Karelin, S. V., Koldashov, S. Y., Krutkov, A. A., Kvashnin, A. N., Kvashnin, A., Leonov, V. V., Malakhov, L., Marcelli, M., Martucci, A. G., Mayorov, W., Menn, M., Merge, V. V., Mikhailov, E., Mocchiutti, A., Monaco, N., Mori, Munini, Riccardo, G., Osteria, F., Palma, B., Panico, P., Papini, M., Pearce, P., Picozza, C., Pizzolotto, M., Ricci, S. B., Ricciarini, L., Rossetto, R., Sarkar, V., Scotti, M., Simon, R., Sparvoli, P., Spillantini, Stozhkov, Y. u. I., A., Vacchi, E., Vannuccini, G. I., Vasilyev, S. A., Voronov, Yurkin, Y. u. T., G., Zampa, N., Zampa, V. G., Zverev, Koldobskiy, S., Adriani, O., Barbarino, Giancarlo, Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., Danilchenko, I. A., De Donato, C., De Santis, C., De Simone, N., Di Felice, V., Formato, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Krutkov, S. Y., Kvashnin, A. A., Kvashnin, A. N., Leonov, A., Malakhov, V. V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Merge, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Pizzolotto, C., Ricci, M., Ricciarini, S. B., Rossetto, L., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Zampa, G., Zampa, N., and Zverev, V. G.
- Subjects
deuteron ,Nuclear Theory ,General Physics and Astronomy ,Geomagnetism ,Solar radiation Artificial Earth satellites ,Energy interval ,High-precision ,Instrument setup ,Cosmic ray ,Spectral line ,Latitude ,law.invention ,Physics and Astronomy (all) ,cosmic rays ,PAMELA ,law ,Nuclear Experiment ,Physics::Atmospheric and Oceanic Physics ,Settore FIS/01 ,Physics ,PAMELA detector ,Astronomy ,Albedo ,Earth's magnetic field ,Physics::Space Physics ,PAMELA, cosmic rays, albedo particles, deuteron ,Satellite ,Astrophysics::Earth and Planetary Astrophysics ,Nucleon ,albedo particles - Abstract
The results of measuring albedo deuteron fluxes in the vicinity of the Earth are presented. The data were obtained in the PAMELA experiment conducted aboard the Resurs DK-1 artificial Earth satellite. High-precision detectors of the instrument setup allow us to identify albedo deuterons and measure their spectra in the energy interval from 70 to 600 MeV/nucleon at altitudes of 350-600 km for different geomagnetic latitudes.
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- 2015
29. Physical Performance of GAMMA-400 Telescope. Angular Resolution, Proton and Electron Separation
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Alexey Leonov, V. V. Mikhailov, M. F. Runtso, A.I. Arkhangelskiy, M. D. Kheymits, А.М. Galper, N. P. Topchiev, P. Y. u. Naumov, V. V. Kadilin, I. V. Arkhangelskaja, Yu. V. Gusakov, Yu. T. Yurkin, S. I. Suchkov, and V. G. Zverev
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Physics ,Proton ,Astrophysics::High Energy Astrophysical Phenomena ,Dark matter ,Gamma ray ,X-ray telescope ,Cosmic ray ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Astrophysics ,Physics and Astronomy(all) ,gamma-ray telescope ,law.invention ,gamma rays ,Telescope ,cosmic rays ,law ,hadron and electromagnetic showers ,Angular resolution ,space experiments ,Fermi Gamma-ray Space Telescope - Abstract
The specially designed GAMMA-400 gamma-ray telescope will realize the measurements of gamma-ray fluxes and cosmic-ray electrons and positrons in the energy range from 100 MeV to several TeV. Such measurements concern with the following broad range of scientific topics. Search for signatures of dark matter, investigation of gamma-ray point and extended sources, studies of the energy spectra of Galactic and extragalactic diffuse emission, studies of gamma-ray bursts and gamma-ray emission from the active Sun, as well as high-precision measurements of spectra of high-energy electrons and positrons, protons, and nuclei up to the knee. To clarify these scientific problems with the new experimental data the GAMMA-400 gamma-ray telescope possesses unique physical characteristics comparing with previous and present experiments. For gamma-ray energies more than 100 GeV GAMMA-400 provides the energy resolution ∼1% and angular resolution better than 0.02 deg. The methods, developed to reconstruct the direction of incident gamma photon, are presented in this paper, as well as, the capability of the GAMMA-400 gamma-ray telescope to distinguish electrons and positrons from protons in cosmic rays is discussed.
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- 2015
30. The Prototype of GAMMA-400 Apparatus
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Yu. T. Yurkin, S. I. Suchkov, I. V. Arkhangelskaja, M. F. Runtso, M. D. Kheymits, N. P. Topchiev, and A.I. Arkhangelskiy
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Physics ,Rotation period ,COSMIC cancer database ,cosmic gamma-ray emission ,Astrophysics::High Energy Astrophysical Phenomena ,Equator ,Dark matter ,Astronomy ,Astrophysics ,Physics and Astronomy(all) ,gamma-telescope ,dark matter ,electromagnetic calorimeter ,Orbit (dynamics) ,Satellite ,Angular resolution ,prototype ,Gamma-ray burst ,space observatory - Abstract
Scientific project GAMMA-400 (Gamma-Astronomy Multifunction Modules Apparatus) relates to the new generation of space observatories for investigation of cosmic γ-emission in the energy band from ∼20 MeV up to several TeV, electron/positron fluxes from ∼1 GeV up to ∼10 TeV and cosmic-ray nuclei fluxes with energies up to ∼10 15 eV by means of GAMMA-400 gamma-telescope represents the core of the scientific complex. The investigation of gamma ray bursts in the energy band of 10 keV–15 MeV are possible too by means of KONUS-FG apparatus included in the complex. For γ-rays in the energy region from 10 to 100 GeV expected energy resolution changes from ∼3% to ∼1% and angular resolution from ∼0.1% to ∼ 0.01% respectively, γ/protons rejection factor is ∼5·10 5 . The GAMMA-400 satellite will be launched at the beginning of the next decade on the high apogee orbit with following initial parameters: apogee altitude ∼300000 km, perigee altitude ∼500 km, rotation period ∼7 days, inclination to the equator plane 51.4°. The active functioning interval will be 7-10 years. The scientific complex will have next main technical parameters: total weight ∼4100 kg, power consumption ∼2000 W, information quote 100 GByte/day. During the project development, the prototype of apparatus was created for working-off of the main apparatus construction units in laboratory conditions. The main distinctive features of the prototype are presented.
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- 2015
31. GAMMA-400 Space Gamma-telescope Mathematical Model with Engineering Elements Included
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Yu. T. Yurkin, M. D. Kheymits, A.A. Perfil‘ev, E. N. Chasovikov, A.I. Arkhangelskiy, I. V. Arkhangelskaja, Yu. V. Gusakov, N. P. Topchiev, and A. M. Galper
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Physics ,Scintillation ,Engineering drawing ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,Detector ,ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION ,Geant4 ,Physics and Astronomy(all) ,gamma-ray telescope ,law.invention ,Telescope ,gamma rays ,Theoretical physics ,Software ,Development (topology) ,cosmic rays ,Technical drawing ,law ,hadron and electromagnetic showers ,business ,space experiments ,Energy (signal processing) ,mathematical model ,Fermi Gamma-ray Space Telescope - Abstract
Mathematical model creation is a necessary stage in scientific apparatus development. The mathematical model of gamma-ray telescope GAMMA-400 is used to emulate transport of various elementary particles through the apparatus. The new iteration of the model is based on precise technical drawings and includes all the elements of the real gamma-telescope. It is created in Geant4 environment. This model allows calculation of energy deposition not only in detectors, but in any part of the apparatus, including construction elements. Moreover, it supports creation of virtual sensitive volumes, allowing determination of the number and properties of particles passing through an arbitrary part of the construction. Software for automated creation of Geant4 model based on technical drawings in STEP 3D Model format was developed. This software is capable of making models of other apparatus based particularly on scintillation and strip detectors.
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- 2015
- Full Text
- View/download PDF
32. Splash and Re-entrant Albedo Fluxes Measured in the PAMELA Experiment
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A. V. Karelin, Mark Pearce, S. B. Ricciarini, F. Palma, R. Carbone, Sergey Koldobskiy, G. C. Barbarino, Valerio Formato, A. G. Mayorov, P. Papini, E. Vannuccini, M.A. Mayorova, Alfonso Monaco, V. DiFelice, Alexey Leonov, Roberto Bellotti, O. Adriani, V. Bonvicini, Mirko Boezio, C. DeDonato, C. DeSantis, W. Menn, A. M. Galper, N. Zampa, Ritabrata Sarkar, G. Osteria, M. Merge, A. N. Kvashnin, G. Zampa, Beatrice Panico, M. Simon, Yu. T. Yurkin, Matteo Martucci, N. DeSimone, Nicola Mori, M. Bongi, Marco Ricci, V. V. Malakhov, S. Bottai, A.I. Moiseeva, G. Castellini, Riccardo Munini, G. A. Bazilevskaya, A.A. Kvashnin, C. Pizzolotto, Valentina Scotti, R. Sparvoli, E. Mocchiutti, Yuri Stozhkov, L. Marcelli, A. Vacchi, A. Bruno, Per Carlson, F. Cafagna, V. V. Mikhailov, S. A. Voronov, E. A. Bogomolov, P. Spillantini, Sergey Koldashov, P. Picozza, V. G. Zverev, D. Campana, Marco Casolino, Mayorov, A. G., Moiseeva, A. I., Adriani, O., Barbarino, Giancarlo, Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., Dedonato, C., Desantis, C., Desimone, N., Difelice, V., Formato, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Kvashnin, A. A., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorova, M. A., Menn, W., Merge’, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Pizzolotto, C., Ricci, M., Ricciarini, S. B., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., and Zverev, V. G.
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Physics ,Splash ,Calorimeter (particle physics) ,Spectrometer ,Aperture ,Settore FIS/04 ,Detector ,Astrophysics ,Albedo ,Physics and Astronomy(all) ,splash albedo ,Latitude ,Physics and Astronomy (all) ,Earth's magnetic field ,PAMELA ,Astrophysics::Earth and Planetary Astrophysics ,Physics::Atmospheric and Oceanic Physics - Abstract
This work devoted to the description of the method for splash albedo protons identification in the satellite-born experiment PAMELA. In contrast to the reentrant albedo particles, which enter into the main aperture of the instrument, the direct albedo particles enter from the opposite direction, so they pass a few detectors, including calorimeter, before being register by the magnetic spectrometer. The developed method take into account the influence of these detectors on the selection of events and measurements of their characteristics. To test this method the energy spectrum of reentrant albedo protons in various regions of the near-Earth space reconstructed; it is in a good agreement with the classical measurements in the main aperture. Therefore, this method can be useful to obtain a new physical data about fluxes of splash albedo protons in the PAMELA experiment, which, unlike the reentrant albedo, can be study even at high geomagnetic latitudes.
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- 2015
- Full Text
- View/download PDF
33. Deuteron spectrum measurements under radiation belt with PAMELA instrument
- Author
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V. G. Zverev, Yu. T. Yurkin, V. Bonvicini, Y. I. Stozhkov, R. Carbone, Sergey Koldobskiy, V. Di Felice, G. C. Barbarino, O. Adriani, W. Menn, N. Zampa, G. A. Bazilevskaya, Matteo Martucci, S. A. Voronov, M. Simon, Riccardo Munini, L. Marcelli, P. Papini, Piero Spillantini, E. A. Bogomolov, A. Vacchi, A. Bruno, Laura Rossetto, Alfonso Monaco, V. V. Malakhov, A. G. Mayorov, M. Merge, Per Carlson, G. Castellini, A. A. Kvashnin, S. Y. Krutkov, N. De Simone, Mark Pearce, S. B. Ricciarini, Sergey Koldashov, R. Sparvoli, E. Mocchiutti, Alexey Leonov, P. Picozza, Marco Ricci, S. Bottai, F. Cafagna, C. Pizzolotto, I. A. Danilchenko, Ritabrata Sarkar, D. Campana, V. V. Mikhailov, E. Vannuccini, G. I. Vasilyev, G. Zampa, Beatrice Panico, Marco Casolino, Valerio Formato, G. Osteria, Nicola Mori, C. De Santis, C. De Donato, Valentina Scotti, F. Palma, Mirko Boezio, A. V. Karelin, Roberto Bellotti, A. M. Galper, A. N. Kvashnin, Massimo Bongi, Koldobskiy, S. A., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., Danilchenko, I. A., De Donato, C., De Santis, C., De Simone, N., Di Felice, V., Formato, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Krutkov, S. Y., Kvashnin, A. A., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergè, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Pizzolotto, C., Ricci, M., Ricciarini, S. B., Rossetto, L., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., and Zverev, V. G.
- Subjects
Albedo ,Nuclear and High Energy Physics ,Astrophysics::High Energy Astrophysical Phenomena ,Nuclear Theory ,Cosmic ray ,Radiation ,01 natural sciences ,law.invention ,Nuclear physics ,symbols.namesake ,law ,Deuteron ,PAMELA experiment ,Radiation belt ,0103 physical sciences ,Nuclear Experiment ,010303 astronomy & astrophysics ,Settore FIS/01 ,Physics ,Range (particle radiation) ,PAMELA detector ,010308 nuclear & particles physics ,Van Allen radiation belt ,symbols ,Satellite ,Nucleon - Abstract
In this work the results of data analysis of the deuteron albedo radiation obtained in the PAMELA experiment are presented. PAMELA is an international space experiment carried out on board of the satellite Resurs DK-1. The high precision detectors allow to register and identify cosmic ray particles in a wide energy range. The albedo deuteron spectrum in the energy range 70 - 600 MeV/nucleon has been measured. © 2015 Elsevier B.V..
- Published
- 2016
34. Measurements of electron and positron fluxes below the geomagnetic cutoff by the PAMELA magnetic spectrometer
- Author
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Sergey Koldashov, S. Bottai, E. Mocchiutti, G. A. Bazilevskaya, M. Simon, Yu. T. Yurkin, A. Bruno, Y. I. Stozhkov, Paolo Papini, P. Spillantini, G. Castellini, M. Merge, A. N. Kvashnin, Alexey Leonov, F. Cafagna, N. Zampa, Mark Pearce, S. B. Ricciarini, Sergey Koldobskiy, G. C. Barbarino, V. Di Felice, D. Campana, E. Vannuccini, R. Sparvoli, S. Y. Krutkov, Giovanni Bonvicini, V. V. Mikhailov, Marco Casolino, V. V. Malakhov, André Monaco, P. Carlson, P. Picozza, Maria Teresa Ricci, O. Adriani, G. Zampa, Beatrice Panico, L. Marcelli, A. Vacchi, S. A. Voronov, E. A. Bogomolov, Mirko Boezio, C. De Donato, Matteo Martucci, C. De Santis, A. G. Mayorov, Riccardo Munini, G. I. Vasilyev, Nicola Mori, Yu. V. Mikhailova, Roberto Bellotti, A. M. Galper, Massimo Bongi, A. V. Karelin, and G. Osteria
- Subjects
Physics ,Rigidity (electromagnetism) ,Earth's magnetic field ,Positron ,Spectrometer ,Astrophysics::High Energy Astrophysical Phenomena ,Electron ,Trapping ,Astrophysics ,Secondary electrons ,South Atlantic Anomaly - Abstract
We present a measurements of electron and positron fluxes below the geomagnetic cutoff rigidity in wide energy range from ~50 MeV to several GeVs by the PAMELA magnetic spectrometer. The instrument was launched on June 15th 2006 on-board the Resurs-DK satellite on low orbit with 70 degrees inclination and altitude between 350 and 600 km. Features of spatial distributions of secondary electrons and positrons in the near Earth space, including the South Atlantic Anomaly, were investigated in terms of lifetime and geographical origin. The separation in stably trapped , long lifetime quasi-trapped, and short lifetime albedo components was performed on base of back tracing procedure in geomagnetic field. A significant difference in relative abundance of positrons with respect to electrons is seen for the stable trapped and the quasi-trapped populations what pointing out on different trapping mechanism of those populations.
- Published
- 2017
35. Sharp increasing of positron to electron fluxes ratio below 2 GV measured by the PAMELA
- Author
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Alfonso Monaco, A. N. Kvashnin, M. Merge, V. V. Mikhailov, P. Carlson, A. G. Mayorov, G. I. Vasiliev, R. Sparvoli, N. De Simone, G. Zampa, Beatrice Panico, M. Simon, N. Zampa, Sergey Koldashov, G. A. Bazilevskaya, Yu. T. Yurkin, C. De Santis, Yu. I. Stozhkov, V. V. Malakhov, S. Yu. Krutkov, P. Picozza, Roberto Bellotti, Mark Pearce, S. B. Ricciarini, F. Palma, A. M. Galper, P. Papini, Giuseppe Osteria, E. Vannuccini, Matteo Martucci, S. A. Koldobsky, E. Mocchiutti, F. Cafagna, A. V. Karelin, Mirko Boezio, D. Campana, S. Bottai, Maria Teresa Ricci, S. A. Voronov, Marco Casolino, C. De Donato, Nicola Mori, E. A. Bogomolov, Riccardo Munini, M. Bongi, P. Spillantini, O. Adriani, W. Menn, V. Di Felice, V. Bonvicini, G. C. Barbarino, G. Castellini, L. Marcelli, A. Vacchi, A. Bruno, Alexey Leonov, Mikhailov, V. V., Adriani, O., Barbarino, G., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F. S., Campana, D., Carlson, P., Casolino, M., Castellini, G., De Donato, C., De Santis, C., De Simone, N., Di Felice, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobsky, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A. A., Malakhov, V. V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Merge, M., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Papini, P., Palma, F., Panico, B., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasiliev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
- Subjects
Physics ,Settore FIS/01 ,History ,Antiparticle ,PAMELA detector ,Spectrometer ,Astrophysics::High Energy Astrophysical Phenomena ,Astrophysics::Instrumentation and Methods for Astrophysics ,Polar orbit ,Cosmic ray ,Astrophysics ,Electron ,Cosmology ,Electrons ,Magnetic polarity ,Orbits ,Positrons ,Computer Science Applications ,Education ,law.invention ,Physics and Astronomy (all) ,Positron ,law ,Physics::Space Physics ,Satellite ,Astrophysics::Earth and Planetary Astrophysics - Abstract
Magnetic spectrometer PAMELA was launched onboard a satellite Resurs-DK1 into low-Earth polar orbit with altitude 350-600 km to study cosmic ray antiparticle fluxes in a wide energy range from ~ 100 MeV to hundreds GeV. This paper presents the results of observations of temporal variations of the positron and electron fluxes in the 2006-2015. The ratio of the positron and electron fluxes below 2 GV shows sharp increasing since 2014 due to changing of the polarity of the solar magnetic field.
- Published
- 2017
36. Solar modulation of cosmic deuteron fluxes in the PAMELA experiment
- Author
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Roberto Bellotti, A. M. Galper, V. V. Mikhailov, V. Bonvicini, Andrea Vacchi, Mark Pearce, S. B. Ricciarini, P. Papini, E. Vannuccini, M. Simon, G. Zampa, Beatrice Panico, Riccardo Munini, N. Zampa, Mirko Boezio, A. V. Karelin, R. Sparvoli, Marco Ricci, Per Carlson, Alfonso Monaco, F. Cafagna, A. N. Kvashnin, Yu. T. Yurkin, M. Merge, G. Osteria, Massimo Bongi, Sergey Koldobskiy, G. C. Barbarino, V. V. Malakhov, A. G. Mayorov, G. A. Bazilevskaya, V. Di Felice, S. Bottai, O. Adriani, E. Mocchiutti, W. Menn, A. A. Kvashnin, G. I. Vasilyev, S. Y. Krutkov, Matteo Martucci, M. F. Runtso, S. A. Voronov, P. Picozza, C. De Santis, Nicola Mori, P. Spillantini, D. Campana, Marco Casolino, Sergey Koldashov, L. Marcelli, A. Bruno, Alexey Leonov, Yuri Stozhkov, G. Castellini, E. A. Bogomolov, Koldobskiy, S. A., Adriani, O., Bazilevskaya, G. A., Barbarino, G. C., Bellotti, R., Bogomolov, E. A., Boezio, M., Bonvicini, V., Bongi, M., Bottai, S., Bruno, A., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Galper, A. M., De Santis, C., Di Felice, V., Zampa, G., Zampa, N., Casolino, M., Campana, D., Karelin, A. V., Carlson, P., Castellini, G., Cafagna, F., Kvashnin, A. A., Kvashnin, A. N., Koldashov, S. V., Krutkov, S. Y., Leonov, A. A., Mayorov, A. G., Malakhov, V. V., Martucci, M., Marcelli, L., Menn, W., Merge, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Picozza, P., Pearce, M., Ricci, M., Ricciarini, S. B., Runtso, M. F., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., and Yurkin, Y. T.
- Subjects
Physics ,COSMIC cancer database ,PAMELA detector ,010308 nuclear & particles physics ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,Settore FIS/04 ,General Physics and Astronomy ,Cosmic ray ,Cosmic ray measurement ,Cosmic rays ,Deuterium ,Modulation ,Solar energy Energy interval ,Galactic cosmic rays ,High precision detections ,Measurements of ,Solar activity ,Solar modulation ,Astrophysics ,Solar energy ,01 natural sciences ,Spectral line ,law.invention ,Physics and Astronomy (all) ,law ,0103 physical sciences ,Physics::Space Physics ,Coronal mass ejection ,Satellite ,Astrophysics::Earth and Planetary Astrophysics ,business ,Nucleon ,010303 astronomy & astrophysics - Abstract
The preliminary results from measurements of deuteron fluxes in galactic cosmic rays (GCR) in the vicinity of the Earth in 2006–2009 are presented. The results are obtained by analyzing data from the PAMELA experiment aboard the Resurs DK-1 satellite. High-precision detection instruments provided an opportunity to identify GCR deuterons and measure their spectrum in the energy interval of 90–650MeV/nucleon. Spectra averaged over six-month intervals from the summer of 2006 to the summer of 2009 (the solar activity minimum) are presented. The influence of solar modulation on the observed spectrum is clearly seen in the results.
- Published
- 2017
37. Modulation of electrons and positrons in 2006â2015 in the PAMELA experiment
- Author
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E. Mocchiutti, O. Adriani, W. Menn, A. G. Mayorov, A. N. Kvashnin, A. V. Karelin, R. Sparvoli, Mark Pearce, S. B. Ricciarini, Sergey Koldobskiy, P. Papini, G. Castellini, E. Vannuccini, Yu. T. Yurkin, G. C. Barbarino, V. V. Malakhov, Mirko Boezio, Marco Ricci, C. De Santis, N. Zampa, M. Bongi, Matteo Martucci, V. Di Felice, V. Bonvicini, S. Bottai, Roberto Bellotti, A. M. Galper, Andrea Vacchi, G. Zampa, Beatrice Panico, S. Y. Krutkov, A. A. Kvashnin, G. I. Vasilyev, Per Carlson, M. Simon, F. Cafagna, L. Marcelli, G. A. Bazilevskaya, G. Osteria, A. Bruno, Nicola Mori, P. Picozza, V. V. Mikhailov, Riccardo Munini, P. Spillantini, D. Campana, M. F. Runtso, S. A. Voronov, Marco Casolino, Sergey Koldashov, Alfonso Monaco, M. Merge, Yuri Stozhkov, Alexey Leonov, E. A. Bogomolov, Mikhailov, V. V., Adriani, O., Bazilevskaya, G. A., Barbarino, G. C., Bellotti, R., Bogomolov, E. A., Boezio, M., Bonvicini, V., Bongi, M., Bottai, S., Bruno, A., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Galper, A. M., De Santis, C., Di Felice, V., Zampa, G., Zampa, N., Casolino, M., Campana, D., Karelin, A. V., Carlson, P., Castellini, G., Cafagna, F., Kvashnin, A. A., Kvashnin, A. N., Koldashov, S. V., Koldobskiy, S. A., Krutkov, S. Y., Leonov, A. A., Mayorov, A. G., Malakhov, V. V., Martucci, M., Marcelli, L., Menn, W., Merge, M., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Picozza, P., Pearce, M., Ricci, M., Ricciarini, S. B., Runtso, M. F., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., and Yurkin, Y. T.
- Subjects
Physics ,Settore FIS/01 ,Antiparticle ,PAMELA detector ,Spectrometer ,Astrophysics::High Energy Astrophysical Phenomena ,General Physics and Astronomy ,Cosmic ray ,Electron ,Astrophysics ,01 natural sciences ,law.invention ,Physics and Astronomy (all) ,Positron ,law ,0103 physical sciences ,Physics::Space Physics ,Coronal mass ejection ,Interplanetary magnetic field ,010306 general physics ,010303 astronomy & astrophysics ,Cosmic rays ,Cosmology ,Magnetic polarity ,Orbits ,Positrons ,Solar energy Magnetic spectrometers ,Solar activity ,Solar magnetic fields ,Temporal variation ,Time interval ,Wide energy range - Abstract
The PAMELA magnetic spectrometer was launched aboard the Resurs DK-1 satellite into a nearpolar circumterrestrial orbit with an altitude of 350–600 km to study fluxes of the particles and antiparticles of cosmic rays in the wide energy range of ~80 MeV to several hundred gigaelectronvolts. The results from observations of temporal variations in electron and positron fluxes in 2006–2015 are presented. The ratio of electron and positron fluxes measured in this time interval reveals a dependence on the rigidity of particles, the solar activity, and the polarity of the solar magnetic field.
- Published
- 2017
38. High-energy gamma-ray studying with GAMMA-400 after Fermi-LAT
- Author
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S. I. Suchkov, V. G. Zverev, Yu. I. Stozhkov, Yu. T. Yurkin, A. E. Egorov, V. V. Kadilin, Alexey Leonov, I. V. Arkhangelskaja, Valery Korepanov, Maxim S. Gorbunov, E. Mocchiutti, A. A. Moiseev, A. M. Galper, Marco Tavani, A. A. Taraskin, M. F. Runtso, Igor V. Moskalenko, V. V. Mikhailov, A.I. Arkhangelskiy, O. D. Dalkarov, M. D. Kheymits, P. Picozza, O. V. Serdin, A. V. Bakaldin, O. Adriani, P. Yu. Naumov, V. Bonvicini, Vladimir Kaplin, Yu. V. Gusakov, N. P. Topchiev, S G Bobkov, Piero Spillantini, Mirko Boezio, Bohdan Hnatyk, Francesco Longo, Roberta Sparvoli, M. Strikhanov, O. Nagornov, S. Rubin, Topchiev, N. P., Galper, A. M., Bonvicini, V., Adriani, O., Arkhangelskaja, I. V., Arkhangelskiy, A. I., Bakaldin, A. V., Bobkov, S. G., Boezio, M., Dalkarov, O. D., Egorov, A. E., Gorbunov, M. S., Gusakov, Yu. V., Hnatyk, B. I., Kadilin, V. V., Kaplin, V. A., Kheymits, M. D., Korepanov, V. E., Leonov, A. A., Longo, F., Mikhailov, V. V., Mocchiutti, E., Moiseev, A. A., Moskalenko, I. V., Naumov, P. Y., Picozza, P., Runtso, M. F., Serdin, O. V., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Suchkov, S. I., Taraskin, A. A., Tavani, M., Yurkin, Y. T., and Zverev, V. G.
- Subjects
History ,High energy ,Elliptic orbit ,010504 meteorology & atmospheric sciences ,gamma-ray astrophysics ,gamma-ray telescopes ,Astrophysics::High Energy Astrophysical Phenomena ,Dark matter ,gamma-ray astrophysic ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Astrophysics ,01 natural sciences ,Education ,law.invention ,Telescope ,law ,0103 physical sciences ,Gamma ray, Gamma400 ,010303 astronomy & astrophysics ,Astrophysics::Galaxy Astrophysics ,0105 earth and related environmental sciences ,Physics ,Settore FIS/01 ,Range (particle radiation) ,Galactic Center ,Gamma ray ,Computer Science Applications ,Fermi Gamma-ray Space Telescope - Abstract
Fermi-LAT has made a significant contribution to the study of high-energy gamma-ray diffuse emission and the observation of ~3000 discrete sources. However, one third of all gamma-ray sources (both galactic and extragalactic) are unidentified, the data on the diffuse gamma-ray emission should be clarified, and signatures of dark matter particles in the high-energy gamma-ray range are not observed up to now. GAMMA-400, currently developing gamma-ray telescope, will have the angular (~0.01° at 100 GeV) and energy (~1% at 100 GeV) resolutions in the energy range of 10-1000 GeV better than the Fermi-LAT (as well as ground gamma-ray telescopes) by a factor of 5-10 and observe some regions of the Universe (such as Galactic Center, Fermi Bubbles, Crab, Cygnus, etc.) in the highly elliptic orbit (without shading the telescope by the Earth) continuously for a long time. It will permit to identify many discrete sources, to clarify the structure of extended sources, to specify the data on the diffuse emission, and to resolve gamma rays from dark matter particles.
- Published
- 2017
39. Solar modulation of galactic cosmic rays during 2006-2015 based on PAMELA and ARINA data
- Author
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Alfonso Monaco, S. Bottai, A. G. Mayorov, P. Picozza, M. Merge, Maria Teresa Ricci, Sergey Koldobskiy, G. C. Barbarino, P. Yu. Naumov, A. V. Karelin, P. Spillantini, Alexey Leonov, R. Sparvoli, Mark Pearce, S. B. Ricciarini, Nicola Mori, S. A. Voronov, M. Simon, P. Papini, E. Vannuccini, N. Zampa, G. A. Bazilevskaya, L. Marcelli, E. A. Bogomolov, G. Osteria, D. Campana, A. Vacchi, Laura Rossetto, V. V. Malakhov, Yu. T. Yurkin, A. Bruno, V. V. Mikhailov, O. Adriani, M. A. Mayorova, Marco Casolino, Roberto Bellotti, A. M. Galper, Matteo Martucci, W. Menn, G. I. Vasilyev, V. Di Felice, A. A. Kvashnin, Mirko Boezio, G. Castellini, G. Zampa, Beatrice Panico, Riccardo Munini, C. De Santis, S. A. Rodenko, F. Cafagna, M. Bongi, Per Carlson, V. Bonvicini, Y. Stozhkov, Sergey Aleksandrin, E. Mocchiutti, and S. V. Koldashov
- Subjects
Settore FIS/01 ,Physics ,History ,Scintillation ,PAMELA detector ,Spectrometer ,Cosmic rays ,Cosmology ,Magnetic polarity ,Modulation ,Solar energy ,Spectrometers Galactic cosmic rays ,Magnetic spectrometers ,Solar activity ,Solar magnetic fields ,Solar modulation ,Transient periods ,Astrophysics::High Energy Astrophysical Phenomena ,Cosmic ray ,Astrophysics ,Computer Science Applications ,Education ,Magnetic field ,law.invention ,Physics and Astronomy (all) ,law ,Physics::Space Physics ,Nuclear Experiment - Abstract
Solar modulation of galactic protons with energies from 50 MeV up to dozens of GeV during July '06 - January '16 studied based on a data of the magnetic spectrometer PAMELA and scintillation spectrometer ARINA. This period is interesting because it covers the end of 23rd and current 24th cycles of solar activity, including the abnormally long transient period and change of the polarity of solar magnetic field. © Published under licence by IOP Publishing Ltd.
- Published
- 2017
40. New stage in high-energy gamma-ray studies with GAMMA-400 after Fermi-LAT
- Author
-
Piero Spillantini, A. I. Arkhangelskiy, V. V. Kadilin, S. G. Bobkov, A. E. Egorov, S. I. Suchkov, O. Adriani, Igor V. Moskalenko, Alexander Moiseev, Yu. I. Stozhkov, P. Yu. Naumov, Vladimir Kaplin, V. Bonvicini, E. Mocchiutti, Marco Tavani, P. Picozza, Maxim S. Gorbunov, A. A. Taraskin, I. V. Arkhangelskaja, N. P. Topchiev, V.G. Zverev, O. V. Serdin, Mirko Boezio, A. V. Bakaldin, A. M. Galper, Yu. V. Gusakov, V. V. Mikhailov, Bohdan Hnatyk, Valery Korepanov, Francesco Longo, Roberta Sparvoli, Alexey Leonov, M. F. Runtso, O. D. Dalkarov, M. D. Kheymits, Yu. T. Yurkin, Nicolay Kolachevsky, Oleg Dalkarov, Topchiev, N. P., Galper, A. M., Bonvicini, V., Adriani, O., Arkhangelskaja, I. V., Arkhangelskiy, A. I., Bakaldin, A. V., Bobkov, S. G., Boezio, M., Dalkarov, O. D., Egorov, A. E., Gorbunov, M. S., Gusakov, Yu. V., Hnatyk, B. I., Kadilin, V. V., Kaplin, V. A., Kheymits, M. D., Korepanov, V. E., Leonov, A. A., Longo, F., Mikhailov, V. V., Mocchiutti, E., Moiseev, A. A., Moskalenko, I. V., Naumov, P. Yu., Picozza, P., Runtso, M. F., Serdin, O. V., Sparvoli, R., Spillantini, P., Stozhkov, Yu. I., Suchkov, S. I., Taraskin, A. A., Tavani, M., Yurkin, Yu. T., and Zverev, V. G.
- Subjects
Elliptic orbit ,gamma-ray satellites ,Astrophysics::High Energy Astrophysical Phenomena ,QC1-999 ,gamma-ray astrophysic ,Dark matter ,02 engineering and technology ,Astrophysics ,Astrophysics::Cosmology and Extragalactic Astrophysics ,01 natural sciences ,law.invention ,Telescope ,law ,0103 physical sciences ,0202 electrical engineering, electronic engineering, information engineering ,010303 astronomy & astrophysics ,Astrophysics::Galaxy Astrophysics ,Physics ,Settore FIS/01 ,Gamma Ray, GAMMA400 ,Range (particle radiation) ,Galactic Center ,Gamma ray ,020206 networking & telecommunications ,gamma-ray astrophysics ,Stage (hydrology) ,Fermi Gamma-ray Space Telescope - Abstract
Fermi-LAT has made a significant contribution to the study of high-energy gamma-ray diffuse emission and the observations of 3000 discrete sources. However, one third of all gamma-ray sources (both galactic and extragalactic) are unidentified, the data on the diffuse gamma-ray emission should be clarified, and signatures of dark matter particles in the high-energy gamma-ray range are not observed up to now. GAMMA-400, the currently developing gamma-ray telescope, will have angular (∼0.01∘ at 100 GeV) and energy (∼1% at 100 GeV) resolutions in the energy range of 10–1000 GeV which are better than Fermi-LAT (as well as ground gamma-ray telescopes) by a factor of 5–10. It will observe some regions of the Universe (such as the Galactic Center, Fermi Bubbles, Crab, Cygnus, etc.) in a highly elliptic orbit (without shading the telescope by the Earth) continuously for a long time. It will allow us to identify many discrete sources, to clarify the structure of extended sources, to specify the data on the diffuse emission, and to resolve gamma rays from dark matter particles.
- Published
- 2017
41. The PAMELA experiment: A decade of Cosmic Ray Physics in space
- Author
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P. Spillantini, Matteo Martucci, Yu. T. Yurkin, Nicola Mori, M. Bongi, Riccardo Munini, S. Y. Krutkov, Per Carlson, G. Zampa, A. V. Karelin, Beatrice Panico, A. N. Kvashnin, R. Sparvoli, C. De Santis, C. De Donato, V. V. Malakhov, O. Adriani, P. Picozza, W. Menn, A. G. Mayorov, S. A. Voronov, M. Merge, G. A. Bazilevskaya, Sergey Koldobskiy, G. C. Barbarino, M. Simon, G. Osteria, G. I. Vasilyev, V. Di Felice, V. Bonvicini, S. Bottai, A. Bruno, Y. I. Stozhkov, N. Zampa, Maria Teresa Ricci, F. Cafagna, E. A. Bogomolov, Roberto Bellotti, E. Mocchiutti, V. V. Mikhailov, A. M. Galper, Mark Pearce, S. B. Ricciarini, P. Papini, E. Vannuccini, L. Marcelli, A. Vacchi, F. Palma, Mirko Boezio, Alexey Leonov, G. Castellini, Sergey Koldashov, D. Campana, Marco Casolino, Galper, A. M., Sparvoli, R., Adriani, O., Barbarino, G., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., De Donato, C., De Santis, C., Di Felice, V., Karelin, A. V., Koldashov, S. V., Koldobskiy, S. A., Krutkov, S. Y., Kvashnin, A. N., Leonov, A. A., Malakhov, V. V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Merge, M., Mikhailov, V. V., Mocchiutti, E., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
- Subjects
Physics ,Settore FIS/01 ,History ,COSMIC cancer database ,010504 meteorology & atmospheric sciences ,PAMELA detector ,Astronomy ,Cosmic ray ,Astrophysics ,Space (mathematics) ,Carbon ,Cosmology ,Earth (planet) ,High energy physics ,Positrons ,Radiation belts ,Solar energy Continuous data ,Elemental compositions ,Heliospheres ,Measurements of ,Quark matter ,Radiation environments ,Solar activity ,Solar modulation ,01 natural sciences ,Computer Science Applications ,Education ,law.invention ,On board ,Physics and Astronomy (all) ,law ,0103 physical sciences ,Satellite ,010306 general physics ,0105 earth and related environmental sciences - Abstract
The PAMELA detector was launched on June 15 th of 2006 on board the Russian Resurs-DK1 satellite and during ten years of continuous data-taking it has observed very interesting features in cosmic rays, especially in the fluxes of protons, helium and electrons. Moreover, PAMELA measurements of cosmic antiproton and positron fluxes and positron-to-all-electron ratio have set strong constraints to the nature of Dark Matter. Measurements of boron, carbon, lithium and beryllium (together with the isotopic fraction) have also shed new light on the elemental composition of the cosmic radiation. Search for signatures of more exotic processes (such as the ones involving Strange Quark Matter) has also been pursued. Furthermore, over the years the instrument has allowed a constant monitoring of the solar activity and a prolonged study of the solar modulation, improving the comprehension of the heliosphere mechanisms. PAMELA has also measured the radiation environment around the Earth, and detected for the first time the presence of an antiproton radiation belt surrounding our planet. In this highlight paper PAMELA main results will be reviewed.
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- 2017
42. Geomagnetically trapped, albedo and solar energetic particles: Trajectory analysis and flux reconstruction with PAMELA
- Author
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G. Zampa, Beatrice Panico, Roberto Bellotti, A. M. Galper, Matteo Martucci, G. A. de Nolfo, Alfonso Monaco, A. G. Mayorov, Alexey Leonov, M. Merge, Valentina Scotti, N. Zampa, G. A. Bazilevskaya, V. Bonvicini, Y. I. Stozhkov, E. Mocchiutti, Ritabrata Sarkar, S. Bottai, Sergey Koldashov, R. Sparvoli, Sergey Koldobskiy, A. V. Karelin, Marco Ricci, V. V. Malakhov, G. C. Barbarino, G. Osteria, G. I. Vasilyev, G. Castellini, S. Y. Krutkov, James M. Ryan, V. Di Felice, C. De Santis, C. De Donato, Mirko Boezio, P. Picozza, Nicola Mori, F. Palma, M. Simon, V. V. Mikhailov, Riccardo Munini, F. Cafagna, E. C. Christian, O. Adriani, A. N. Kvashnin, W. Menn, Yu. T. Yurkin, L. Marcelli, M. Bongi, A. Vacchi, A. Bruno, Mark Pearce, S. B. Ricciarini, Steven Stochaj, P. Papini, E. Vannuccini, S. A. Voronov, E. A. Bogomolov, Per Carlson, N. De Simone, P. Spillantini, D. Campana, Marco Casolino, Bruno, A., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., Christian, E. C., De Donato, C., de Nolfo, G. A., De Santis, C., De Simone, N., Di Felice, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergè, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Ryan, J. M., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stochaj, S., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
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Atmospheric Science ,Solar energetic particles ,010504 meteorology & atmospheric sciences ,Astrophysics::High Energy Astrophysical Phenomena ,Aerospace Engineering ,FOS: Physical sciences ,Space weather ,01 natural sciences ,law.invention ,Physics::Geophysics ,symbols.namesake ,Physics - Space Physics ,law ,0103 physical sciences ,Albedo particles ,Cosmic-rays ,010303 astronomy & astrophysics ,Ring current ,0105 earth and related environmental sciences ,Physics ,Geomagnetic storm ,Settore FIS/01 ,PAMELA detector ,Astronomy ,Geomagnetic cutoff ,Radiation belts ,Space and Planetary Science ,Astronomy and Astrophysics ,Space Physics (physics.space-ph) ,Geophysics ,Earth's magnetic field ,Van Allen radiation belt ,Health threat from cosmic rays ,Physics::Space Physics ,symbols ,General Earth and Planetary Sciences ,Astrophysics::Earth and Planetary Astrophysics - Abstract
The PAMELA satellite experiment is providing comprehensive observations of the interplanetary and magnetospheric radiation in the near-Earth environment. Thanks to its identification capabilities and the semi-polar orbit, PAMELA is able to precisely measure the energetic spectra and the angular distributions of the different cosmic-ray populations over a wide latitude region, including geomagnetically trapped and albedo particles. Its observations comprise the solar energetic particle events between solar cycles 23 and 24, and the geomagnetic cutoff variations during magnetospheric storms. PAMELA's measurements are supported by an accurate analysis of particle trajectories in the Earth's magnetosphere based on a realistic geomagnetic field modeling, which allows the classification of particle populations of different origin and the investigation of the asymptotic directions of arrival., Comment: Accepted for publication in Advances in Space Research, 2016. 21 pages, 7 figures
- Published
- 2017
43. Additional aperture detectors of gamma-telescope GAMMA-400 calibrations on synchrotron 'PAKHRA': possibility of temporal profiles fractal analysis
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N. P. Topchiev, I. V. Arkhangelskaja, Yu. T. Yurkin, M. F. Runtso, A. I. Arkhangelskiy, Alexey Leonov, S. I. Suchkov, A. E. Egorov, E. N. Chasovikov, and A. M. Galper
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Physics ,History ,business.industry ,Aperture ,Detector ,Fractal analysis ,Synchrotron ,Computer Science Applications ,Education ,law.invention ,Telescope ,Optics ,law ,business - Published
- 2019
44. Space-based GAMMA-400 mission for direct gamma- and cosmic-ray observations
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A. E. Egorov, P. Yu. Naumov, Yu. T. Yurkin, A.V. Bakaldin, I. V. Arkhangelskaja, Yu. I. Stozhkov, Nikolay Topchiev, N.Yu. Pappe, Irina V. Chernysheva, A. M. Galper, O.D. Dalkarov, M. D. Kheymits, A.I. Arkhangelskiy, Y. u. V. Gusakov, M. F. Runtso, V.G. Zverev, Alexey Leonov, and S. I. Suchkov
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Physics ,History ,Calorimeter (particle physics) ,Astrophysics::High Energy Astrophysical Phenomena ,Galactic Center ,Dark matter ,Gamma ray ,Cosmic ray ,Astrophysics ,Computer Science Applications ,Education ,law.invention ,Telescope ,Positron ,law ,Fermi Gamma-ray Space Telescope - Abstract
The future space-based GAMMA-400 mission is intended for direct gamma- and cosmic-ray observations in the highly elliptic orbit during 7-10 years. GAMMA-400, currently developing gamma-ray telescope, will observe in the energy range from ~20 MeV to several TeV some regions of the Universe (such as Galactic Center, Fermi Bubbles, Crab, Cygnus, etc.) with the unprecedented angular (~0.01° at Eγ = 100 GeV) and energy (~1% at Eγ = 100 GeV) resolutions better than the Fermi-LAT, as well as ground gamma-ray telescopes, by a factor of 5-10. GAMMA-400 will also study cosmic rays in the energy range of up to ~20 TeV due to deep calorimeter (22 r.l. and 53 r.l. for vertical and lateral events, respectively). GAMMA-400 will permit to resolve gamma rays from dark matter particles, identify many discrete sources (many of which are variable), to clarify the structure of extended sources, to specify the data on the diffuse emission. GAMMA-400 will also specify the sources and the spectra of cosmic-ray electrons + positrons.
- Published
- 2019
45. Time dependence of the helium flux measured by PAMELA
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Roberto Bellotti, A. M. Galper, Nicola Mori, P. Spillantini, M. Bongi, C. De Santis, Alfonso Monaco, M. S. Potgieter, S. A. Voronov, Sergey Koldobskiy, M. Merge, E. A. Bogomolov, Per Carlson, G. C. Barbarino, S. Y. Krutkov, S. Bottai, E. Mocchiutti, V. Bonvicini, Y. I. Stozhkov, Riccardo Munini, A. V. Karelin, G. I. Vasilyev, P. Picozza, V. V. Malakhov, Mark Pearce, S. B. Ricciarini, O. Adriani, M. Simon, S. V. Koldashov, G. Osteria, W. Menn, P. Papini, N. Marcelli, E. Vannuccini, Marco Ricci, Andrea Vacchi, Yu. T. Yurkin, N. Zampa, G. A. Bazilevskaya, L. Marcelli, A. Bruno, V. Di Felice, R. Sparvoli, F. Cafagna, A. N. Kvashnin, V. V. Mikhailov, G. Zampa, Beatrice Panico, Alexey Leonov, Driaan Bisschoff, G. Castellini, O. P. M. Aslam, A. G. Mayorov, Mirko Boezio, D. Campana, Matteo Martucci, Marco Casolino, De Vincenzi, M., Marcelli, N., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., De Santis, C., Di Felice, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergè, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., Potgieter, M. S., Aslam, O. P. M., and Bisschoff, D.
- Subjects
Physics ,Range (particle radiation) ,QC1-999 ,Computer Science::Information Retrieval ,Astrophysics::High Energy Astrophysical Phenomena ,chemistry.chemical_element ,Cosmic ray ,Astrophysics::Cosmology and Extragalactic Astrophysics ,01 natural sciences ,Galaxy ,Nuclear physics ,Space experiment ,Flux (metallurgy) ,chemistry ,Modulation ,0103 physical sciences ,010306 general physics ,010303 astronomy & astrophysics ,Helium - Abstract
Precision measurements of the Z = 2 component in cosmic radiation provide crucial information about the origin and propagation of the second most abundant cosmic ray species in the Galaxy (9% of the total). These measurements, acquired with the PAMELA space experiment orbiting Earth, allow to study solar modulation in details. Helium modulation is compared to the modulation of protons to study possible dependencies on charge and mass. The time dependence of helium fluxes on a monthly basis measured by PAMELA has been studied for the period between July 2006 to January 2016 in the energy range from 800 MeV/n to ~ 20 GeV/n.
- Published
- 2019
46. Searching for cosmic ray anisotropy using the calorimeter in the PAMELA experiment
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A. V. Karelin, Nicola Mori, W. Menn, Y. Wu, Andrea Vacchi, S. V. Borisov, G. A. Bazilevskaya, Giovanna Jerse, M. F. Runtso, A. M. Galper, R. Belotti, S. A. Voronov, A. N. Kvashnin, A. G. Mayorov, P. Picozza, C. Pizzolotto, Mirko Boezio, G. I. Vasilyev, R. Carbone, P. Spillantini, A. Bruno, L. Consiglio, Sergey Koldobskiy, G. C. Barbarino, C. De Santis, Mark Pearce, S. B. Ricciarini, Alfonso Monaco, N. De Simone, Laura Rossetto, Yu. T. Yurkin, P. Papini, E. Vannuccini, G. Castellini, Yu. I. Stozhkov, Giuseppe Osteria, Gianluigi Zampa, S. Bottai, V. V. Malakhov, V. G. Zverev, M. P. De Pascale, S. Yu. Krutkov, M. Bongi, E. A. Bogomolov, N. Zampa, Roberta Sparvoli, A. A. Leonov, Lorenzo Bonechi, D. Campana, Marco Casolino, L. Marcelli, O. Adriani, V. V. Mikhailov, P. Carlson, F. Cafagna, I. A. Danilchenko, S. V. Koldashov, Marco Ricci, E. Mocchiutti, M. Simon, V. Di Felice, V. Malvezzi, V. Bonvicini, A., Karelin, O., Adriani, Barbarino, Giancarlo, G., Bazilevskaya, R., Belotti, M., Boezio, E., Bogomolov, L., Bonechi, M., Bongi, V., Bonvicini, S. h., Borisov, S., Bottai, A., Bruno, A., Vacchi, E., Vannuccini, G., Vasilyev, S., Voronov, Y., Wu, A., Galper, I., Danilchenko, M. D., Pascale, C. D., Santi, N. D., Simone, V. D., Felice, G., Jerse, V., Zverev, G., Zampa, N., Zampa, F., Cafagna, D., Campana, R. h., Carbone, P., Carlson, M., Casolino, G., Castellini, A., Kvashnin, S., Koldashov, S., Koldobskiy, Consiglio, Lucia, S., Krutkov, A., Leonov, V., Malvezzi, L., Marcelli, A., Mayorov, V., Malakhov, W., Menn, V., Mikhailov, E., Mocchiutti, A., Monaco, N., Mori, Osteria, Giuseppe, P., Papini, M., Pearce, P., Picozza, C., Pizzolotto, M., Ricci, S., Ricciarini, L., Rossetto, M., Runtso, M., Simon, R., Sparvoli, P., Spillantini, Y., Stozhkov, and Y., Yurkin
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Physics ,Range (particle radiation) ,Scintillation ,genetic structures ,Calorimeter (particle physics) ,PAMELA detector ,Physics::Instrumentation and Detectors ,Astrophysics::High Energy Astrophysical Phenomena ,General Physics and Astronomy ,Cosmic ray ,Electron ,Radiation ,law.invention ,Nuclear physics ,Physics and Astronomy (all) ,Calorimeters ,law ,A-particles, Cosmic ray anisotropy, Cosmic ray spectra, Electron component, Experiment study, Nuclear components, Position sensitive, Secondary particle ,High Energy Physics::Experiment ,Anisotropy, Cosmic rays, Experiment ,Anisotropy - Abstract
The satellite-borne PAMELA experiment studies cosmic ray spectra over a wide range of energies. The instrument was placed in orbit in June 2006 and remains there to the present day. A position-sensitive calorimeter is one of the main parts of the PAMELA instrument. The calorimeter data are used to determine the energy of particles that interact within it, separate the electron component of the detected radiation from the nuclear component, and reconstruct the tracks of particles passing through the instrument. The special calorimeter and S4 scintillation shower detector triggers enables us to expand our statistics considerably. Using the calorimeter data in generating these triggers means we can study the anisotropy of cosmic rays with energies in excess of tens of GeV. This method of anisotropy detection is based on reconstructing the direction of a particle's arrival from the axis of the secondary particle cascade in the calorimeter. ?????? 2013 Allerton Press, Inc.
- Published
- 2013
47. PAMELA's measurements of geomagnetic cutoff variations during the 14 December 2006 storm
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Sergey Koldobskiy, G. C. Barbarino, Alfonso Monaco, D. Campana, A. G. Mayorov, Mark Pearce, S. B. Ricciarini, Marco Casolino, S. Y. Krutkov, P. Papini, E. Vannuccini, M. Merge, Matteo Martucci, E. Mocchiutti, G. A. de Nolfo, S. Bottai, P. Picozza, V. Bonvicini, O. Adriani, Sergey Koldashov, Y. I. Stozhkov, A. V. Karelin, W. Menn, V. V. Malakhov, Per Carlson, Valentina Scotti, P. Spillantini, F. Cafagna, M. Bongi, N. De Simone, Marco Ricci, M. Simon, Roberto Bellotti, A. M. Galper, N. Zampa, V. V. Mikhailov, F. Palma, A. N. Kvashnin, G. A. Bazilevskaya, S. A. Voronov, R. Sparvoli, E. A. Bogomolov, Yu. T. Yurkin, V. Di Felice, G. Osteria, Nicola Mori, G. I. Vasilyev, C. De Santis, C. De Donato, Riccardo Munini, G. Zampa, Beatrice Panico, Alexey Leonov, Ritabrata Sarkar, G. Castellini, Mirko Boezio, L. Marcelli, A. Vacchi, A. Bruno, Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., De Donato, C., De Nolfo, G. A., De Santis, C., De Simone, N., Di Felice, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergé, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
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Geomagnetic Cutoff ,Atmospheric Science ,010504 meteorology & atmospheric sciences ,Astrophysics::High Energy Astrophysical Phenomena ,Magnetosphere ,FOS: Physical sciences ,Astrophysics ,01 natural sciences ,Physics::Geophysics ,High Energy Physics - Experiment ,High Energy Physics - Experiment (hep-ex) ,Physics - Space Physics ,0103 physical sciences ,Interplanetary magnetic field ,Solar Energetic Particles ,010303 astronomy & astrophysics ,0105 earth and related environmental sciences ,Physics ,Geomagnetic storm ,Earth and Planetary Astrophysics (astro-ph.EP) ,Ionospheric dynamo region ,Geomagnetic secular variation ,Solar energetic particles ,Settore FIS/04 ,Geophysics ,Magnetic Storms ,Space Physics (physics.space-ph) ,Solar wind ,Earth's magnetic field ,Physics::Space Physics ,Astrophysics - Earth and Planetary Astrophysics - Abstract
Data from the Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics (PAMELA) satellite experiment were used to measure the geomagnetic cutoff for high-energy (>80 MeV) protons during the 14 December 2006 geomagnetic storm. The variations of the cutoff latitude as a function of rigidity were studied on relatively short timescales, corresponding to spacecraft orbital periods (94 min). Estimated cutoff values were compared with those obtained by means of a trajectory tracing approach based on a dynamical empirical modeling of the Earth's magnetosphere. We found significant variations in the cutoff latitude, with a maximum suppression of about 7 deg at lowest rigidities during the main phase of the storm. The observed reduction in the geomagnetic shielding and its temporal evolution were related to the changes in the magnetospheric configuration, investigating the role of interplanetary magnetic field, solar wind and geomagnetic parameters. PAMELA's results represent the first direct measurement of geomagnetic cutoffs for protons with kinetic energies in the sub-GeV and GeV region., 26 pages, 6 figures and 1 table. Accepted for publication in Space Weather
- Published
- 2016
48. The measurement of the dipole anisotropy of protons and helium cosmic rays with the PAMELA experiment
- Author
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Mark Pearce, S. B. Ricciarini, S. Y. Krutkov, P. Papini, M. Merge, E. Vannuccini, M. Simon, A. A. Leonov, V. V. Mikhailov, V. Di Felice, P. Picozza, Nicola Mori, N. Zampa, R. Sparvoli, G. A. Bazilevskaya, Maria Teresa Ricci, A. G. Mayorov, L. Marcelli, Riccardo Munini, V. V. Malakhov, O. Adriani, A. Bruno, Yu. T. Yurkin, W. Menn, V. Bonvicini, Sergey Koldashov, S. Bottai, F. Cafagna, Y. I. Stozhkov, A. V. Karelin, E. Mocchiutti, Valentina Scotti, Matteo Martucci, G. Osteria, Piero Spillantini, Andrea Vacchi, Roberto Bellotti, Per Carlson, A. M. Galper, A. N. Kvashnin, F. Palma, C. De Donato, N. De Simone, Sergey Koldobskiy, G. C. Barbarino, D. Campana, Mirko Boezio, Marco Casolino, G. Castellini, Massimo Bongi, C. De Santis, G. I. Vasilyev, Ritabrata Sarkar, V. Formato, S. A. Voronov, E. A. Bogomolov, G. Zampa, Beatrice Panico, Alfonso Monaco, Karelin, A. V., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carlson, P., Casolino, M., Castellini, G., De Donato, C., De Santis, C., De Simone, N., Felice, V. D., Formato, V., Galper, A. M., Koldobskiy, S. A., Koldashov, S. V., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergè, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G., Voronov, S. A., Yurkin, Y. T., Zampa, G., and Zampa, N.
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Settore FIS/01 ,Physics ,History ,Range (particle radiation) ,Calorimeter (particle physics) ,Astrophysics::High Energy Astrophysical Phenomena ,Dipole anisotropy ,chemistry.chemical_element ,Cosmic ray ,Astrophysics ,01 natural sciences ,Computer Science Applications ,Education ,Nuclear physics ,Dipole ,Physics and Astronomy (all) ,Amplitude ,chemistry ,0103 physical sciences ,010306 general physics ,Anisotropy ,010303 astronomy & astrophysics ,Cosmic ray measurement ,Cosmology ,Tellurium compounds ,Helium - Abstract
In the framework of the PAMELA experiment the features of the large-scale anisotropy have been measured within the energy range 1-20 TeV/n. The measurements were carried out with the use of the calorimeter on the base of the hypothesis about the existence of a dipole anisotropy. The amplitude and phase of the dipole were obtained. The results are in agreement with the ground-based observations.
- Published
- 2016
49. Perspectives of the GAMMA-400 space observatory for high-energy gamma rays and cosmic rays measurements
- Author
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A. L. Menshenin, G. Castellini, M. F. Runtso, S G Bobkov, Valery Korepanov, N P Topchiev, O. D. Dalkarov, Yu. I. Stozhkov, A. A. Moiseev, R. L. Aptekar, G Bigongiari, Francesco Longo, N Finetti, C. De Donato, A. Vacchi, A Tiberio, P.W. Cattaneo, P S Marrocchesi, P. Yu. Naumov, V. V. Mikhailov, A. V. Bakaldin, Roberta Sparvoli, N. Zampa, Vladimir Kaplin, A. M. Galper, Igor V. Moskalenko, Nicola Mori, Yu. T. Yurkin, E. M. Tyurin, P. Picozza, S. Bonechi, Felix Ryde, Paolo Maestro, M. Ulanov, V. V. Kadilin, Mark Pearce, E. Vannuccini, Piero Spillantini, Maxim S. Gorbunov, O. V. Serdin, Josefin Larsson, P. Papini, Marco Tavani, A. Rappoldi, Mirko Boezio, A. A. Taraskin, S. B. Ricciarini, S. I. Suchkov, V. N. Zirakashvili, I. V. Arkhangelskaja, V. A. Loginov, O. Adriani, G. L. Dedenko, G. I. Vasilyev, Bohdan Hnatyk, V. G. Zverev, A. A. Kaplun, E. A. Bogomolov, Yu. V. Gusakov, E Berti, A.I. Arkhangelskiy, M. D. Kheymits, M. Bongi, E. Mocchiutti, P. Cumani, Alexey Leonov, V. Bonvicini, V. A. Dogiel, L. Bergstrom, S. Bottai, S. Rubin, A. Galper, A. Petrukhin, M. Skorokhvatov, Topchiev, N. P., Galper, A. M., Bonvicini, V., Adriani, O., Aptekar, R. L., Arkhangelskaja, I. V., Arkhangelskiy, A. I., Bakaldin, A. V., Bergstrom, L., Berti, E., Bigongiari, G., Bobkov, S. G., Boezio, M., Bogomolov, E. A., Bonechi, S., Bongi, M., Bottai, S., Castellini, G., Cattaneo, P. W., Cumani, P., Dalkarov, O. D., Dedenko, G. L., De Donato, C., Dogiel, V. A., Finetti, N., Gorbunov, M. S., Gusakov, Y. V., Hnatyk, B. I., Kadilin, V. V., Kaplin, V. A., Kaplun, A. A., Kheymits, M. D., Korepanov, V. E., Larsson, J., Leonov, A. A., Loginov, V. A., Longo, F., Maestro, P., Marrocchesi, P. S., Men'Shenin, A. L., Mikhailov, V. V., Mocchiutti, E., Moiseev, A. A., Mori, N., Moskalenko, I. V., Naumov, P. Y., Papini, P., Pearce, M., Picozza, P., Rappoldi, A., Ricciarini, S., Runtso, M. F., Ryde, F., Serdin, O. V., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Suchkov, S. I., Taraskin, A. A., Tavani, M., Tiberio, A., Tyurin, E. M., Ulanov, M. V., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Yurkin, Y. T., Zampa, N., Zirakashvili, V. N., and Zverev, V. G.
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History ,010504 meteorology & atmospheric sciences ,Astrophysics::High Energy Astrophysical Phenomena ,Dark matter ,Highly elliptical orbit ,cosmic-rays ,Cosmic ray ,Astrophysics ,01 natural sciences ,Education ,law.invention ,Telescope ,Physics and Astronomy (all) ,law ,0103 physical sciences ,010303 astronomy & astrophysics ,0105 earth and related environmental sciences ,Physics ,Settore FIS/04 ,Gamma ray ,Astrophysics::Instrumentation and Methods for Astrophysics ,Astronomy ,gamma-ray telescopes ,Gamma-ray astronomy ,Orbital period ,gamma-ray telescope ,Computer Science Applications ,Cosmic ray measurement ,Cosmic rays ,Cosmology ,Positrons ,Space platforms ,Telescopes ,Tellurium compounds ,Fermi Gamma-ray Space Telescope - Abstract
The GAMMA-400 gamma-ray telescope is intended to measure the fluxes of gamma-rays and cosmic-ray electrons and positrons in the energy range from 100 MeV to several TeV. Such measurements concern the following scientific tasks: investigation of point sources of gamma-rays, studies of the energy spectra of Galactic and extragalactic diffuse emission, studies of gamma-ray bursts and gamma-ray emission from the Sun, as well as high precision measurements of spectra of high-energy electrons and positrons. Also the GAMMA- 400 instrument provides the possibility for protons and nuclei measurements up to knee. But the main goal for the GAMMA-400 mission is to perform a sensitive search for signatures of dark matter particles in high-energy gamma-ray emission. To fulfill these measurements the GAMMA-400 gamma-ray telescope possesses unique physical characteristics in comparison with previous and present experiments. The major advantage of the GAMMA-400 instrument is excellent angular and energy resolution for gamma-rays above 10 GeV. The GAMMA-400 experiment will be installed onboard of the Navigator space platform, manufactured by the NPO Lavochkin Association. The expected orbit will be a highly elliptical orbit (with apogee 300.000 km and perigee 500 km) with 7 days orbital period. An important profit of such an orbit is the fact that the full sky coverage will always be available for gamma ray astronomy.
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- 2016
50. The May 17, 2012 solar event: Back-tracing analysis and flux reconstruction with PAMELA
- Author
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Sergey Koldashov, Yu. T. Yurkin, V. V. Mikhailov, G. A. Bazilevskaya, R. Sparvoli, S. Y. Krutkov, M. Bongi, V. Di Felice, Yuri Stozhkov, Ulisse Bravar, P. Picozza, V. V. Malakhov, Mark Pearce, S. B. Ricciarini, Roberto Bellotti, R. Carbone, Steven Stochaj, N. De Simone, A. M. Galper, Sergey Koldobskiy, F. Cafagna, P. Papini, G. C. Barbarino, E. Vannuccini, A. G. Mayorov, Alfonso Monaco, E. Mocchiutti, E. C. Christian, A. V. Karelin, N. Zampa, M. Merge, S. A. Voronov, Per Carlson, C. De Santis, D. Campana, James M. Ryan, E. A. Bogomolov, V. G. Zverev, A. N. Kvashnin, G. Osteria, Marco Casolino, C. De Donato, M. Simon, V. Bonvicini, L. Marcelli, Maria Teresa Ricci, A. Vacchi, Valerio Formato, A. Bruno, G. I. Vasilyev, Nicola Mori, Matteo Martucci, G. A. de Nolfo, G. Castellini, Alexey Leonov, Ritabrata Sarkar, S. Bottai, Riccardo Munini, G. Zampa, Beatrice Panico, P. Spillantini, M. A. Lee, O. Adriani, W. Menn, F. Palma, Valentina Scotti, Mirko Boezio, Bruno, A., Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bongi, M., Bonvicini, V., Bottai, S., Bravar, U., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., Christian, E. C., De Donato, C., De Nolfo, G. A., De Santis, C., De Simone, N., Felice, V. D., Formato, V., Galper, A. M., Karelin, A. V., Koldashov, S. V., Koldobskiy, S., Krutkov, S. Y., Kvashnin, A. N., Lee, M., Leonov, A., Malakhov, V., Marcelli, L., Martucci, M., Mayorov, A. G., Menn, W., Mergè, M., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Munini, R., Osteria, G., Palma, F., Panico, B., Papini, P., Pearce, M., Picozza, P., Ricci, M., Ricciarini, S. B., Ryan, J. M., Sarkar, R., Scotti, V., Simon, M., Sparvoli, R., Spillantini, P., Stochaj, S., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Voronov, S. A., Yurkin, Y. T., Zampa, G., Zampa, N., and Zverev, V. G.
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Physics ,Settore FIS/01 ,History ,Solar energetic particles ,Spacecraft ,business.industry ,Magnetosphere ,Direction of arrival ,Astrophysics ,Tracing ,Solar physics ,01 natural sciences ,Computer Science Applications ,Education ,Computational physics ,Physics and Astronomy (all) ,0103 physical sciences ,Physics::Space Physics ,Neutron ,Interplanetary magnetic field ,010306 general physics ,business ,Angular distribution ,Cosmology ,Earth (planet) ,Low power electronics ,Orbits ,Solar system ,010303 astronomy & astrophysics - Abstract
The PAMELA space experiment is providing first direct observations of Solar Energetic Particles (SEPs) with energies from about 80 MeV to several GeV in near-Earth orbit, bridging the low energy measurements by other spacecrafts and the Ground Level Enhancement (GLE) data by the worldwide network of neutron monitors. Its unique observational capabilities include the possibility of measuring the flux angular distribution and thus investigating possible anisotropies associated to SEP events. The analysis is supported by an accurate back-tracing simulation based on a realistic description of the Earth's magnetosphere, which is exploited to estimate the SEP energy spectra as a function of the asymptotic direction of arrival with respect to the Interplanetary Magnetic Field (IMF). In this work we report the results for the May 17, 2012 event.
- Published
- 2016
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