Photometric calibration of the Stellar Abundance and Galactic Evolution Survey (SAGES): Nanshan One-meter Wide-field Telescope g, r, and i band imaging data

K. Xiao, H. Yuan, B. Huang, Shuai Xu, Jie Zheng, C. Li, Z. Fan, Wei Wang, Gang Zhao, G. Feng, Xuan Zhang, Jin-Zhong Liu, Ruoyi Zhang, Lin Yang, Yu Zhang, Chun-hai Bai, H. Niu, Esamdin Ali, Lu Ma
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Abstract

In this paper, a total of approximately 2.6 million dwarfs were constructed as standard stars, with an accuracy of about 0.01-0.02 mag for each band, by combining spectroscopic data from the Large Sky Area Multi-Object Fiber Spectroscopic Telescope Data Release 7, photometric data from the corrected Gaia Early Data Release 3, and photometric metallicities. Using the spectroscopy based stellar color regression method (SCR method) and the photometric-based SCR method (SCR' method), we performed the relative calibration of the Nanshan One-meter Wide-field Telescope imaging data. Based on the corrected Pan-STARRS DR1 photometry, the absolute calibration was also performed. In the photometric calibration process, we analyzed the dependence of the calibration zero points on different images (observation time), different gates of the CCD detector, and different CCD positions. We found that the stellar flat and the relative gain between different gates depend on time. The amplitude of gain variation in three channels is approximately 0.5%-0.7% relative to the other channel, with a maximum value of 4%. In addition, significant spatial variations of the stellar flat fitting residual are found and corrected. Using repeated sources in the adjacent images, we checked and discovered internal consistency of about 1-2 mmag in all the filters. Using the PS1 magnitudes synthesized by Gaia DR3 BP/RP spectra by the synthetic photometry method, we found that the photometric calibration uniformity is about 1-2 mmag for all the bands, at a spatial resolution of 1.3 degree. A detailed comparison between the spectroscopy-based SCR and photometric-based SCR method magnitude offsets was performed, and we achieved an internal consistency precision of about 2 mmag or better with resolutions of 1.3 degree for all the filters. Which is mainly from the position-dependent errors of the E(B-V) used in SCR' method.
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恒星丰度与星系演化巡天(SAGES)的光度定标:南山1米宽视场望远镜g、r和i波段成像数据
本文结合大空域多目标光纤光谱望远镜数据版本7的光谱数据、修正后的盖亚早期数据版本3的光度数据和光度金属丰度数据,共构建了约260万颗矮星作为标准恒星,每个波段的精度约为0.01-0.02等。采用基于光谱学的恒星颜色回归法(SCR法)和基于光度学的SCR法(SCR’法),对南山1米宽视场望远镜成像数据进行了相对定标。基于校正后的Pan-STARRS DR1光度,进行了绝对定标。在光度定标过程中,分析了定标零点对不同图像(观测时间)、不同CCD探测器门、不同CCD位置的依赖性。我们发现恒星平面和不同栅极之间的相对增益随时间的变化而变化。三个通道的增益变化幅度相对于另一个通道约为0.5%-0.7%,最大值为4%。此外,还发现并修正了恒星平面拟合残差的显著空间变化。使用相邻图像中的重复源,我们检查并发现所有过滤器的内部一致性约为1-2 mmag。利用合成光度法合成的Gaia DR3 BP/RP光谱的PS1星等,我们发现所有波段的光度校准均匀性约为1-2 mmag,空间分辨率为1.3度。对基于光谱学的SCR方法和基于光度法的SCR方法进行了星等偏移的详细比较,我们获得了大约2 mmag或更高的内部一致性精度,所有滤波器的分辨率为1.3度。这主要来自于SCR方法中使用的E(B-V)的位置相关误差。
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来源期刊
Chinese Science Bulletin
Chinese Science Bulletin 综合性期刊-综合性期刊
自引率
0.00%
发文量
31457
审稿时长
2.6 months
期刊介绍: Chinese Science Bulletin (CSB) was established in 1950 and is currently published three issues every month. It is indexed by Ei Compendex, ESCI (Emerging Sources Citation Index)and Chinese Science Citation Database (CSCD),etc. CSB is a multidisciplinary academic journal supervised by the Chinese Academy of Sciences (CAS) and co-sponsored by the CAS and National Natural Science Foundation of China (NSFC). CSB is committed to rapidly reporting the most advanced developments in natural sciences and engineering and to serving the scientific community with valuable insights into upcoming trends.
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