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Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework

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Zeitschriftentitel: Advances in Astronomy and Space Physics
Personen und Körperschaften: Sushchov, O., Homola, P., Dhital, N., Bratek, Ł., Poznański, P., Wibig, T., Zamora-Saa, J., Almeida Cheminant, K., Alvarez Castillo, D., Góra, D., Jagoda, P., Jałocha, J., Jarvis, J. F., Kasztelan, M., Kopański, K., Krupiński, M., Michałek, M., Nazari, V., Smelcerz, K., Smolek, K., Stasielak, J., Sułek, M.
In: Advances in Astronomy and Space Physics, 7, 2017, 1-2, S. 23-29
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Taras Shevchenko National University of Kyiv
author_facet Sushchov, O.
Homola, P.
Dhital, N.
Bratek, Ł.
Poznański, P.
Wibig, T.
Zamora-Saa, J.
Almeida Cheminant, K.
Alvarez Castillo, D.
Góra, D.
Jagoda, P.
Jałocha, J.
Jarvis, J. F.
Kasztelan, M.
Kopański, K.
Krupiński, M.
Michałek, M.
Nazari, V.
Smelcerz, K.
Smolek, K.
Stasielak, J.
Sułek, M.
Sushchov, O.
Homola, P.
Dhital, N.
Bratek, Ł.
Poznański, P.
Wibig, T.
Zamora-Saa, J.
Almeida Cheminant, K.
Alvarez Castillo, D.
Góra, D.
Jagoda, P.
Jałocha, J.
Jarvis, J. F.
Kasztelan, M.
Kopański, K.
Krupiński, M.
Michałek, M.
Nazari, V.
Smelcerz, K.
Smolek, K.
Stasielak, J.
Sułek, M.
author Sushchov, O.
Homola, P.
Dhital, N.
Bratek, Ł.
Poznański, P.
Wibig, T.
Zamora-Saa, J.
Almeida Cheminant, K.
Alvarez Castillo, D.
Góra, D.
Jagoda, P.
Jałocha, J.
Jarvis, J. F.
Kasztelan, M.
Kopański, K.
Krupiński, M.
Michałek, M.
Nazari, V.
Smelcerz, K.
Smolek, K.
Stasielak, J.
Sułek, M.
spellingShingle Sushchov, O.
Homola, P.
Dhital, N.
Bratek, Ł.
Poznański, P.
Wibig, T.
Zamora-Saa, J.
Almeida Cheminant, K.
Alvarez Castillo, D.
Góra, D.
Jagoda, P.
Jałocha, J.
Jarvis, J. F.
Kasztelan, M.
Kopański, K.
Krupiński, M.
Michałek, M.
Nazari, V.
Smelcerz, K.
Smolek, K.
Stasielak, J.
Sułek, M.
Advances in Astronomy and Space Physics
Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
author_sort sushchov, o.
spelling Sushchov, O. Homola, P. Dhital, N. Bratek, Ł. Poznański, P. Wibig, T. Zamora-Saa, J. Almeida Cheminant, K. Alvarez Castillo, D. Góra, D. Jagoda, P. Jałocha, J. Jarvis, J. F. Kasztelan, M. Kopański, K. Krupiński, M. Michałek, M. Nazari, V. Smelcerz, K. Smolek, K. Stasielak, J. Sułek, M. 2227-1481 Taras Shevchenko National University of Kyiv http://dx.doi.org/10.17721/2227-1481.7.23-29 <jats:p>The main objective of the Cosmic-Ray Extremely Distributed Observatory (CREDO) is the detection and analysis of extended cosmic ray phenomena, so-called super-preshowers (SPS), using existing as well as new infrastructure (cosmic-ray observatories, educational detectors, single detectors etc.). The search for ensembles of cosmic ray events initiated by SPS is yet an untouched ground, in contrast to the current state-of-the-art analysis, which is focused on the detection of single cosmic ray events. Theoretical explanation of SPS could be given either within classical (e.g., photon-photon interaction) or exotic (e.g., Super Heavy Dark Matter decay or annihilation) scenarios, thus detection of SPS would provide a better understanding of particle physics, high energy astrophysics and cosmology. The ensembles of cosmic rays can be classified based on the spatial and temporal extent of particles constituting the ensemble. Some classes of SPS are predicted to have huge spatial distribution, a unique signature detectable only with a facility of the global size. Since development and commissioning of a completely new facility with such requirements is economically unwarranted and time-consuming, the global analysis goals are achievable when all types of existing detectors are merged into a worldwide network. The idea to use the instruments in operation is based on a novel trigger algorithm: in parallel to looking for neighbour surface detectors receiving the signal simultaneously, one should also look for spatially isolated stations clustered in a small time window. On the other hand, CREDO strategy is also aimed at an active engagement of a large number of participants, who will contribute to the project by using common electronic devices (e.g., smartphones), capable of detecting cosmic rays. It will help not only in expanding the geographical spread of CREDO, but also in managing a large manpower necessary for a more efficient crowd-sourced pattern recognition scheme to identify and classify SPS. A worldwide network of cosmic-ray detectors could not only become a unique tool to study fundamental physics, it will also provide a number of other opportunities, including space-weather or geophysics studies. Among the latter one has to list the potential to predict earthquakes by monitoring the rate of low energy cosmic-ray events. The diversity of goals motivates us to advertise this concept across the astroparticle physics community.</jats:p> Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework Advances in Astronomy and Space Physics
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title Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_unstemmed Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_full Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_fullStr Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_full_unstemmed Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_short Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_sort cosmic-ray extremely distributed observatory: a global cosmic ray detection framework
url http://dx.doi.org/10.17721/2227-1481.7.23-29
publishDate 2017
physical 23-29
description <jats:p>The main objective of the Cosmic-Ray Extremely Distributed Observatory (CREDO) is the detection and analysis of extended cosmic ray phenomena, so-called super-preshowers (SPS), using existing as well as new infrastructure (cosmic-ray observatories, educational detectors, single detectors etc.). The search for ensembles of cosmic ray events initiated by SPS is yet an untouched ground, in contrast to the current state-of-the-art analysis, which is focused on the detection of single cosmic ray events. Theoretical explanation of SPS could be given either within classical (e.g., photon-photon interaction) or exotic (e.g., Super Heavy Dark Matter decay or annihilation) scenarios, thus detection of SPS would provide a better understanding of particle physics, high energy astrophysics and cosmology. The ensembles of cosmic rays can be classified based on the spatial and temporal extent of particles constituting the ensemble. Some classes of SPS are predicted to have huge spatial distribution, a unique signature detectable only with a facility of the global size. Since development and commissioning of a completely new facility with such requirements is economically unwarranted and time-consuming, the global analysis goals are achievable when all types of existing detectors are merged into a worldwide network. The idea to use the instruments in operation is based on a novel trigger algorithm: in parallel to looking for neighbour surface detectors receiving the signal simultaneously, one should also look for spatially isolated stations clustered in a small time window. On the other hand, CREDO strategy is also aimed at an active engagement of a large number of participants, who will contribute to the project by using common electronic devices (e.g., smartphones), capable of detecting cosmic rays. It will help not only in expanding the geographical spread of CREDO, but also in managing a large manpower necessary for a more efficient crowd-sourced pattern recognition scheme to identify and classify SPS. A worldwide network of cosmic-ray detectors could not only become a unique tool to study fundamental physics, it will also provide a number of other opportunities, including space-weather or geophysics studies. Among the latter one has to list the potential to predict earthquakes by monitoring the rate of low energy cosmic-ray events. The diversity of goals motivates us to advertise this concept across the astroparticle physics community.</jats:p>
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author Sushchov, O., Homola, P., Dhital, N., Bratek, Ł., Poznański, P., Wibig, T., Zamora-Saa, J., Almeida Cheminant, K., Alvarez Castillo, D., Góra, D., Jagoda, P., Jałocha, J., Jarvis, J. F., Kasztelan, M., Kopański, K., Krupiński, M., Michałek, M., Nazari, V., Smelcerz, K., Smolek, K., Stasielak, J., Sułek, M.
author_facet Sushchov, O., Homola, P., Dhital, N., Bratek, Ł., Poznański, P., Wibig, T., Zamora-Saa, J., Almeida Cheminant, K., Alvarez Castillo, D., Góra, D., Jagoda, P., Jałocha, J., Jarvis, J. F., Kasztelan, M., Kopański, K., Krupiński, M., Michałek, M., Nazari, V., Smelcerz, K., Smolek, K., Stasielak, J., Sułek, M., Sushchov, O., Homola, P., Dhital, N., Bratek, Ł., Poznański, P., Wibig, T., Zamora-Saa, J., Almeida Cheminant, K., Alvarez Castillo, D., Góra, D., Jagoda, P., Jałocha, J., Jarvis, J. F., Kasztelan, M., Kopański, K., Krupiński, M., Michałek, M., Nazari, V., Smelcerz, K., Smolek, K., Stasielak, J., Sułek, M.
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description <jats:p>The main objective of the Cosmic-Ray Extremely Distributed Observatory (CREDO) is the detection and analysis of extended cosmic ray phenomena, so-called super-preshowers (SPS), using existing as well as new infrastructure (cosmic-ray observatories, educational detectors, single detectors etc.). The search for ensembles of cosmic ray events initiated by SPS is yet an untouched ground, in contrast to the current state-of-the-art analysis, which is focused on the detection of single cosmic ray events. Theoretical explanation of SPS could be given either within classical (e.g., photon-photon interaction) or exotic (e.g., Super Heavy Dark Matter decay or annihilation) scenarios, thus detection of SPS would provide a better understanding of particle physics, high energy astrophysics and cosmology. The ensembles of cosmic rays can be classified based on the spatial and temporal extent of particles constituting the ensemble. Some classes of SPS are predicted to have huge spatial distribution, a unique signature detectable only with a facility of the global size. Since development and commissioning of a completely new facility with such requirements is economically unwarranted and time-consuming, the global analysis goals are achievable when all types of existing detectors are merged into a worldwide network. The idea to use the instruments in operation is based on a novel trigger algorithm: in parallel to looking for neighbour surface detectors receiving the signal simultaneously, one should also look for spatially isolated stations clustered in a small time window. On the other hand, CREDO strategy is also aimed at an active engagement of a large number of participants, who will contribute to the project by using common electronic devices (e.g., smartphones), capable of detecting cosmic rays. It will help not only in expanding the geographical spread of CREDO, but also in managing a large manpower necessary for a more efficient crowd-sourced pattern recognition scheme to identify and classify SPS. A worldwide network of cosmic-ray detectors could not only become a unique tool to study fundamental physics, it will also provide a number of other opportunities, including space-weather or geophysics studies. Among the latter one has to list the potential to predict earthquakes by monitoring the rate of low energy cosmic-ray events. The diversity of goals motivates us to advertise this concept across the astroparticle physics community.</jats:p>
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spelling Sushchov, O. Homola, P. Dhital, N. Bratek, Ł. Poznański, P. Wibig, T. Zamora-Saa, J. Almeida Cheminant, K. Alvarez Castillo, D. Góra, D. Jagoda, P. Jałocha, J. Jarvis, J. F. Kasztelan, M. Kopański, K. Krupiński, M. Michałek, M. Nazari, V. Smelcerz, K. Smolek, K. Stasielak, J. Sułek, M. 2227-1481 Taras Shevchenko National University of Kyiv http://dx.doi.org/10.17721/2227-1481.7.23-29 <jats:p>The main objective of the Cosmic-Ray Extremely Distributed Observatory (CREDO) is the detection and analysis of extended cosmic ray phenomena, so-called super-preshowers (SPS), using existing as well as new infrastructure (cosmic-ray observatories, educational detectors, single detectors etc.). The search for ensembles of cosmic ray events initiated by SPS is yet an untouched ground, in contrast to the current state-of-the-art analysis, which is focused on the detection of single cosmic ray events. Theoretical explanation of SPS could be given either within classical (e.g., photon-photon interaction) or exotic (e.g., Super Heavy Dark Matter decay or annihilation) scenarios, thus detection of SPS would provide a better understanding of particle physics, high energy astrophysics and cosmology. The ensembles of cosmic rays can be classified based on the spatial and temporal extent of particles constituting the ensemble. Some classes of SPS are predicted to have huge spatial distribution, a unique signature detectable only with a facility of the global size. Since development and commissioning of a completely new facility with such requirements is economically unwarranted and time-consuming, the global analysis goals are achievable when all types of existing detectors are merged into a worldwide network. The idea to use the instruments in operation is based on a novel trigger algorithm: in parallel to looking for neighbour surface detectors receiving the signal simultaneously, one should also look for spatially isolated stations clustered in a small time window. On the other hand, CREDO strategy is also aimed at an active engagement of a large number of participants, who will contribute to the project by using common electronic devices (e.g., smartphones), capable of detecting cosmic rays. It will help not only in expanding the geographical spread of CREDO, but also in managing a large manpower necessary for a more efficient crowd-sourced pattern recognition scheme to identify and classify SPS. A worldwide network of cosmic-ray detectors could not only become a unique tool to study fundamental physics, it will also provide a number of other opportunities, including space-weather or geophysics studies. Among the latter one has to list the potential to predict earthquakes by monitoring the rate of low energy cosmic-ray events. The diversity of goals motivates us to advertise this concept across the astroparticle physics community.</jats:p> Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework Advances in Astronomy and Space Physics
spellingShingle Sushchov, O., Homola, P., Dhital, N., Bratek, Ł., Poznański, P., Wibig, T., Zamora-Saa, J., Almeida Cheminant, K., Alvarez Castillo, D., Góra, D., Jagoda, P., Jałocha, J., Jarvis, J. F., Kasztelan, M., Kopański, K., Krupiński, M., Michałek, M., Nazari, V., Smelcerz, K., Smolek, K., Stasielak, J., Sułek, M., Advances in Astronomy and Space Physics, Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_full Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_fullStr Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_full_unstemmed Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_short Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
title_sort cosmic-ray extremely distributed observatory: a global cosmic ray detection framework
title_unstemmed Cosmic-Ray Extremely Distributed Observatory: a global cosmic ray detection framework
url http://dx.doi.org/10.17721/2227-1481.7.23-29