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| 2016 |
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A new method to study the time correlation between Van Allen Belt electrons and earthquakes A new method to study a possible temporal correlation between hundreds of keV Van Allen Belt electrons and strong earthquakes is proposed. It consists in measuring the electrons pitch angle distribution (PAD), searching for PAD disturbances, and studying the time correlation between these PAD disturbances and strong earthquakes, occurring within a defined time window. The method was applied to measurements of energetic electrons, which were performed with the Energetic Particle, Composition, and Thermal Plasma (ECT)-MagEIS detector on board the Van Allen Probes (VAPs) mission and strong continental earthquakes, with magnitude M 5.0 and hypocenter depth 100 km. We report the correlation studies for electrons with energies of about 350 keV, with which a 3.84 standard deviations correlation peak was found at hour time bin, and about 450 keV with which no correlation peaks above 2.0 standard deviations were found. Our work proves the feasibility of the proposed method and the obtained results add useful and additional information with respect to past studies. Tao, Dan; Battiston, Roberto; Vitale, Vincenzo; Burger, William; Lazzizzera, Ignazio; Cao, Jinbin; Shen, Xuhui; Published by: International Journal of Remote Sensing Published on: 10/2016 YEAR: 2016 DOI: 10.1080/01431161.2016.1239284 |
| 2014 |
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Cosmic ray physics in space: from fundamental physics to applications One hundred years after their discovery by Victor Hess, cosmic rays are nowadays subject of intense research from space-based detectors, able to perform for the first time high precision measurement of their composition and spectra as well as of isotropy and time variability. On May 2011, the alpha magnetic spectrometer (AMS-02) has been installed on the International Space Station, to measure with high accuracy the cosmic ray properties searching for rare events which could be an indication of the nature of dark matter or presence of nuclear antimatter. AMS-02 is the result of nearly two decades of effort of an international collaboration, involving in particular Chinese and Italian scientists, to design and build a state of the art detector capable to perform high precision cosmic rays measurement. In this paper, I will briefly report on the first results of AMS-02 as well as about two cosmic rays researches related researches which are spinoffs of the AMS technology development: utilization of superconductivity in space to develop magnetic shields capable to protect the astronauts from the intense dose of radiation collected during an interplanetary mission and study of the lithospheric\textendashmagnetospheric interactions linking seismology to cosmic rays in the context of the Sino-Italian collaboration on the China seismo-electromagnetic satellite. Published by: Rendiconti Lincei Published on: 03/2014 YEAR: 2014 DOI: 10.1007/s12210-014-0293-1 Anti matter; Cosmic rays; Dark matter; Seismology; Space research; Superconductivity; Van Allen Belts |
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