충북대학교 천문대 교내관측소에서 측정된 2005년부터 2007년까지의 대기소광계수의 계절별, 년도별 변화

• Published in: Journal of astronomy and space sciences Vol. 25; no. 2; pp. 101 - 112
• Main Authors: 김천휘, 차상목, 최영재, 송미화, 박장호, 원장희, 임진선, 조명신, 박은미, 정장해, Kim, Chun-Hwey, Cha, Sang-Mok, Choi, Young-Jae, Song, Mi-Hwa, Park, Jang-Ho, Won, Jang-Hee, Yim, Jin-Sun, Cho, Myung-Shin, Park, Eun-Mi, Jeong, Jang-Hae
• Format: Journal Article
• Language: Korean
• Published: 한국우주과학회 15.06.2008
• Subjects: 천문학; atmospheric extinction coefficient; atmospheric fine dust; CCD observations
• ISSN: 2093-5587; 2093-1409

Systematic CCD observations of times of minimum lights for eclipsing binaries has been carried out from 2002 to 2007 at Campus Station of Chungbuk National University Observatory which is located in Cheongju city, Korea. As a by-product of our observations, photometric data for stars in CCD images taken from 2005 to 2007 were used to determine 1st order atmospheric extinction coefficient (hereafter AEC) and seasonal and yearly variations of the AECs were studied. Total nights used for determination of AECs were 57 days in 2005, 51 days in 2006, and 63 days in 2007. As a result the annual mean value of the AECs per air mass is calculated as $0.{^{rm m}}34pm 0.{^{rm m}}18$ for 2005, $0.{^{rm m}}38pm 0.{^{rm m}}19$ for 2006, and $0.{^{rm m}}45pm 0.{^{rm m}}20$ for 2007. These values show that the AECs and their standard deviations are two and four times, respectively, larger than those of normal observatories which are not located near large cities. Annual comparison between concentration of atmospheric fine dust and coefficient of atmospheric extinction show strong correlation between two quantities of which time variations show similar patterns. The AECs for the east sky show larger than those for the west sky. It can be easily understood by the reasonable possibility that air pollutants remain more in the east sky than in the west because the east area of Cheongju city has been more developed than the west one. In conclusion the atmospheric extinction of the night sky of Cheongju city has an annual trend of increase of $0.{^{rm m}}06$ airmass$^{-1}$ year$^{-1}$ implying that it may take only about 13 years for Cheongju city to have 2 times brighter night sky than the present one. Our study highlights that variations of AEC can be used as an important indicator of air pollution to monitor night skies. KCI Citation Count: 1