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Ksanfomality L. V. Dzhapiashvili V. P. Kakhiani V. O. Kvaratskhelia O. I. Korol' A. N. Mayer A. K. Petashvili P. P. 《Solar System Research》2002,36(4):341-347
The results of planetary observations performed with a new CCD detector are presented. The available firmware for collecting a great number of electronic images and the high quantum efficiency of the employed CCD make it possible to observe objects the visibility of which is limited by the short duration of astronomical phenomena. Among such tasks are, for instance, the taking of a large number of images of Mercury by the short exposure method. With a high quantum efficiency of the light detector, short exposure makes it possible to appreciably reduce the blurring of astronomical images caused by the atmospheric instability. This study was performed at the Abastumani Astrophysical Observatory of the Republic of Georgia early in November 2001. 相似文献
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Ksanfomaliti L. V. Dzhapiashvili V. P. Kakhiani V. O. Kvaratskheliya O. I. Korol' A. N. Mayer A. K. Petashvili P. P. 《Solar System Research》2001,35(3):190-194
December 1–3, 1999, observations of the planet Mercury were carried out at the Abastumani Astrophysical Observatory of the Republic of Georgia by the short exposure method with the aid of a charge-coupled device (CCD) camera. The materials of these observations are presented in this paper. It is shown that the reduction of the exposure down to 10 ms eliminates the image blurring caused by the atmospheric instability and considerably improves resolution. As regards the image distortions, they can be eliminated only by selecting acceptable images from a sufficiently large number of pictures obtained. The short exposure method allows one to obtain new results from the ground-based observations of Mercury. 相似文献
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