The reason for the difference data of photometric observations Galilean satellites from Earth and from space

The four Galilean satellites of Jupiter have been studied with cosmic devices and from the Earth by astronomical means. Observations on board the spacecraft are usually obtained at large phase angles of the Sun. Observations from Earth are being done at phase angles of the Sun from 1 to 12 degrees....

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Main Authors: A. I. Klianchin, V. V. Prokof'eva-Mikchailovskaya
Format: Article
Language:English
Published: National Aviation University 2012-10-01
Series:Вісник Астрономічної школи
Subjects:
Online Access:http://astro.nau.edu.ua/issues/2012_V.8_Iss.1/Klianchin.html
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spelling doaj-d11a59212a1949d887a864becc904e6c2020-11-25T01:59:00ZengNational Aviation UniversityВісник Астрономічної школи1607-28552411-66022012-10-0181879010.18372/2411-6602.08.10872411-6602.08.1087The reason for the difference data of photometric observations Galilean satellites from Earth and from spaceA. I. Klianchin0V. V. Prokof'eva-Mikchailovskaya1Main Astronomical Observatory NAS of UkraineCrimean Astrophysical Observatory, UkraineThe four Galilean satellites of Jupiter have been studied with cosmic devices and from the Earth by astronomical means. Observations on board the spacecraft are usually obtained at large phase angles of the Sun. Observations from Earth are being done at phase angles of the Sun from 1 to 12 degrees. Large errors in the processing of the provisions satellite mutual phenomena occur because, in their treatment are used their light curves, which were obtained from the maps constructed from the spacecraft data. This can be explained only by the presence of bright spots on the surfaces of the eclipsed satellite, which leads to a different distribution of brightness across the disk of the satellite. About 30 years ago has been studied the inverse of coherent amplification of scattering. This phenomenon occurs in the regolith, covering the atmosphere-free bodies solar system. The presence of the inverse coherent scattering of the solar light at small phase angles of the Sun can explain the difference between the data of spacecraft observations and ground-based photometric measurements of the brightness of the Galilean satellites of Jupiter.http://astro.nau.edu.ua/issues/2012_V.8_Iss.1/Klianchin.htmlregolithphase angle
collection DOAJ
language English
format Article
sources DOAJ
author A. I. Klianchin
V. V. Prokof'eva-Mikchailovskaya
spellingShingle A. I. Klianchin
V. V. Prokof'eva-Mikchailovskaya
The reason for the difference data of photometric observations Galilean satellites from Earth and from space
Вісник Астрономічної школи
regolith
phase angle
author_facet A. I. Klianchin
V. V. Prokof'eva-Mikchailovskaya
author_sort A. I. Klianchin
title The reason for the difference data of photometric observations Galilean satellites from Earth and from space
title_short The reason for the difference data of photometric observations Galilean satellites from Earth and from space
title_full The reason for the difference data of photometric observations Galilean satellites from Earth and from space
title_fullStr The reason for the difference data of photometric observations Galilean satellites from Earth and from space
title_full_unstemmed The reason for the difference data of photometric observations Galilean satellites from Earth and from space
title_sort reason for the difference data of photometric observations galilean satellites from earth and from space
publisher National Aviation University
series Вісник Астрономічної школи
issn 1607-2855
2411-6602
publishDate 2012-10-01
description The four Galilean satellites of Jupiter have been studied with cosmic devices and from the Earth by astronomical means. Observations on board the spacecraft are usually obtained at large phase angles of the Sun. Observations from Earth are being done at phase angles of the Sun from 1 to 12 degrees. Large errors in the processing of the provisions satellite mutual phenomena occur because, in their treatment are used their light curves, which were obtained from the maps constructed from the spacecraft data. This can be explained only by the presence of bright spots on the surfaces of the eclipsed satellite, which leads to a different distribution of brightness across the disk of the satellite. About 30 years ago has been studied the inverse of coherent amplification of scattering. This phenomenon occurs in the regolith, covering the atmosphere-free bodies solar system. The presence of the inverse coherent scattering of the solar light at small phase angles of the Sun can explain the difference between the data of spacecraft observations and ground-based photometric measurements of the brightness of the Galilean satellites of Jupiter.
topic regolith
phase angle
url http://astro.nau.edu.ua/issues/2012_V.8_Iss.1/Klianchin.html
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