LAMOST矮星的[α/Fe]丰度分布与银盘结构研究
发布时间:2021-05-11 11:26
银河系的结构和化学演化是天体物理研究的重要基础课题之一。银盘作为银河系的主体结构和成分,其自身的结构和演化对于理解整个银河系的结构和演化具有十分重要的作用和意义。但有关银盘结构的研究至今仍是一个开放性的问题,如厚盘的存在与否、厚盘和薄盘在空间分布及化学丰度分布上能否截然分开等等都还未有定论。本论文将利用新型大视场兼大口径光学望远镜(LAMOST)光谱巡天获得的大样本恒星光谱,分析银盘恒星的α元素丰度分布,追踪银盘的结构和演化。论文研究内容包括四个部分。首先,按一定的选源标准从LAMOST DR4数据中得到128万颗矮星样本。其次,利用LAMOST反银心巡天项目增值星表2给出的恒星的空间位置、空间速度和元素丰度信息,比较了由LAMOST低分辨率光谱得到的[α/Fe]与高分辨率高信噪比恒星光谱分析给出的[α/Fe],详细分析了样本星的[α/Fe]元素丰度在不同R-Z空间的分布。再次,根据样本[α/Fe]在R-Z空间的分布特征,将样本划分为高[α/Fe]丰度的厚盘星和低[α/Fe]丰度的薄盘星两个子样本,经过样本选择效应修正,利用恒星计数分析方法分别得到了薄盘和厚盘样本的标高。最后,讨论了划...
【文章来源】:河北师范大学河北省
【文章页数】:48 页
【学位级别】:硕士
【文章目录】:
中文摘要
英文摘要
1 绪论
1.1 研究银河系的重要性
1.2 银河系的早期研究
1.3 银河系的结构
1.4 银盘结构研究进展
1.5 本文结构
2 样本的来源和选取标准
2.1 LAMSOT光谱巡天介绍
2.2 LAMSOT反银心方向增值星表介绍
2.3 样本空间
3 样本星的α元素丰度与高分辨率α元素丰度对比
3.1 增值星表中α元素丰度算法
3.2 高分辨率α元素丰度
3.3 增值星表中[α/Fe]值与高分辨率[α/Fe]值对比
4 样本星的[α/Fe]丰度空间分布与银盘结构
4.1 太阳附近样本星的[α/Fe]丰度分布与星族成分划分
4.2 恒星数密度在R-Z空间的分布
4.2.1 选择效应改正
4.2.2 R-Z空间分布
4.2.3 银盘标高hz的计算
5 讨论
5.1 关于矮星样本[α/Fe]误差对划分薄厚盘影响的讨论
5.2 关于银盘边缘增厚现象的讨论
5.3 关于如何划分薄盘和厚盘的讨论…
6 结论
参考文献
致谢
【参考文献】:
期刊论文
[1]A method of measuring the [α/Fe] ratios from the spectra of the LAMOST survey[J]. Ji Li,Chen Han,Mao-Sheng Xiang,Jian-Rong Shi,Jing-Kun Zhao,Xiao-Wei Liu,Hua-Wei Zhang,Hai-Bo Yuan,Xuan Ci,Xiao-Feng Zhang,Yue-Xiang Wang,Yang Huang,Yong Zhang,Yong-Hui Hou,Yue-Fei Wang,Zi-Huang Cao. Research in Astronomy and Astrophysics. 2016(07)
[2]Astrometric calibration of the Xuyi Schmidt Telescope Photometric Survey of the Galactic Anti-center(XSTPS-GAC)[J]. Hui-Hua Zhang,Xiao-Wei Liu,Hai-Bo Yuan,Hai-Bin Zhao,Jin-Sheng Yao,Hua-Wei Zhang,Mao-Sheng Xiang,Yang Huang. Research in Astronomy and Astrophysics. 2014(04)
[3]The Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST)[J]. Xiang-Qun Cui2, Yong-Heng Zhao1, Yao-Quan Chu3, Guo-Ping Li2, Qi Li1, Li-Ping Zhang2, Hong-Jun Su1, Zheng-Qiu Yao2, Ya-Nan Wang2, Xiao-Zheng Xing3, Xin-Nan Li2, Yong-Tian Zhu2, Gang Wang1, Bo-Zhong Gu2, A-Li Luo1, Xin-Qi Xu2, Zhen-Chao Zhang2, Gen-Rong Liu2, Hao-Tong Zhang1, De-Hua Yang2, Shu-Yun Cao1, Hai-Yuan Chen2, Jian-Jun Chen1, Kun-Xin Chen2, Ying Chen1, Jia-Ru Chu3, Lei Feng1, Xue-Fei Gong2, Yong-Hui Hou2, Hong-Zhuan Hu3, Ning-Sheng Hu2, Zhong-Wen Hu2, Lei Jia1, Fang-Hua Jiang2, Xiang Jiang2, Zi-Bo Jiang2, Ge Jin3, Ai-Hua Li2, Yan Li4, Ye-Ping Li2, Guan-Qun Liu2, Zhi-Gang Liu3, Wen-Zhi Lu2, Yin-Dun Mao4, Li Men1, Yong-Jun Qi2, Zhao-Xiang Qi4, Huo-Ming Shi1, Zheng-Hong Tang4, Qing-Sheng Tao2, Da-Qi Wang1, Dan Wang1, Guo-Min Wang2, Hai Wang2, Jia-Ning Wang2, Jian Wang3, Jian-Ling Wang1, Jian-Ping Wang3, Lei Wang2, Shu-Qing Wang1, You Wang2, Yue-Fei Wang2, Ling-Zhe Xu2, Yan Xu1, Shi-Hai Yang2, Yong Yu4, Hui Yuan1, Xiang-Yan Yuan2, Chao Zhai3, Jing Zhang5, Yan-Xia Zhang1, Yong Zhang2, Ming Zhao4, Fang Zhou2, Guo-Hua Zhou2, Jie Zhu2 and Si-Cheng Zou1 1 National Astronomical Observatories, Chinese Academy of Sciences, Beijing 100012, China; 2 Nanjing Institute of Astronomical Optics and Technology, National Astronomical Observatories, Chinese Academy of Sciences, Nanjing 210042, China 3 University of Science and Technology of China, Hefei 230026, China 4 Shanghai Astronomical Observatory, Chinese Academy of Sciences, Shanghai 200030, China 5 Institute of Architecture Design and Research, Chinese Academy of Sciences, Beijing 100190, China. Research in Astronomy and Astrophysics. 2012(09)
[4]银河系的结构和演化[J]. 赵君亮. 自然杂志. 2005(01)
本文编号:3181325
【文章来源】:河北师范大学河北省
【文章页数】:48 页
【学位级别】:硕士
【文章目录】:
中文摘要
英文摘要
1 绪论
1.1 研究银河系的重要性
1.2 银河系的早期研究
1.3 银河系的结构
1.4 银盘结构研究进展
1.5 本文结构
2 样本的来源和选取标准
2.1 LAMSOT光谱巡天介绍
2.2 LAMSOT反银心方向增值星表介绍
2.3 样本空间
3 样本星的α元素丰度与高分辨率α元素丰度对比
3.1 增值星表中α元素丰度算法
3.2 高分辨率α元素丰度
3.3 增值星表中[α/Fe]值与高分辨率[α/Fe]值对比
4 样本星的[α/Fe]丰度空间分布与银盘结构
4.1 太阳附近样本星的[α/Fe]丰度分布与星族成分划分
4.2 恒星数密度在R-Z空间的分布
4.2.1 选择效应改正
4.2.2 R-Z空间分布
4.2.3 银盘标高hz的计算
5 讨论
5.1 关于矮星样本[α/Fe]误差对划分薄厚盘影响的讨论
5.2 关于银盘边缘增厚现象的讨论
5.3 关于如何划分薄盘和厚盘的讨论…
6 结论
参考文献
致谢
【参考文献】:
期刊论文
[1]A method of measuring the [α/Fe] ratios from the spectra of the LAMOST survey[J]. Ji Li,Chen Han,Mao-Sheng Xiang,Jian-Rong Shi,Jing-Kun Zhao,Xiao-Wei Liu,Hua-Wei Zhang,Hai-Bo Yuan,Xuan Ci,Xiao-Feng Zhang,Yue-Xiang Wang,Yang Huang,Yong Zhang,Yong-Hui Hou,Yue-Fei Wang,Zi-Huang Cao. Research in Astronomy and Astrophysics. 2016(07)
[2]Astrometric calibration of the Xuyi Schmidt Telescope Photometric Survey of the Galactic Anti-center(XSTPS-GAC)[J]. Hui-Hua Zhang,Xiao-Wei Liu,Hai-Bo Yuan,Hai-Bin Zhao,Jin-Sheng Yao,Hua-Wei Zhang,Mao-Sheng Xiang,Yang Huang. Research in Astronomy and Astrophysics. 2014(04)
[3]The Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST)[J]. Xiang-Qun Cui2, Yong-Heng Zhao1, Yao-Quan Chu3, Guo-Ping Li2, Qi Li1, Li-Ping Zhang2, Hong-Jun Su1, Zheng-Qiu Yao2, Ya-Nan Wang2, Xiao-Zheng Xing3, Xin-Nan Li2, Yong-Tian Zhu2, Gang Wang1, Bo-Zhong Gu2, A-Li Luo1, Xin-Qi Xu2, Zhen-Chao Zhang2, Gen-Rong Liu2, Hao-Tong Zhang1, De-Hua Yang2, Shu-Yun Cao1, Hai-Yuan Chen2, Jian-Jun Chen1, Kun-Xin Chen2, Ying Chen1, Jia-Ru Chu3, Lei Feng1, Xue-Fei Gong2, Yong-Hui Hou2, Hong-Zhuan Hu3, Ning-Sheng Hu2, Zhong-Wen Hu2, Lei Jia1, Fang-Hua Jiang2, Xiang Jiang2, Zi-Bo Jiang2, Ge Jin3, Ai-Hua Li2, Yan Li4, Ye-Ping Li2, Guan-Qun Liu2, Zhi-Gang Liu3, Wen-Zhi Lu2, Yin-Dun Mao4, Li Men1, Yong-Jun Qi2, Zhao-Xiang Qi4, Huo-Ming Shi1, Zheng-Hong Tang4, Qing-Sheng Tao2, Da-Qi Wang1, Dan Wang1, Guo-Min Wang2, Hai Wang2, Jia-Ning Wang2, Jian Wang3, Jian-Ling Wang1, Jian-Ping Wang3, Lei Wang2, Shu-Qing Wang1, You Wang2, Yue-Fei Wang2, Ling-Zhe Xu2, Yan Xu1, Shi-Hai Yang2, Yong Yu4, Hui Yuan1, Xiang-Yan Yuan2, Chao Zhai3, Jing Zhang5, Yan-Xia Zhang1, Yong Zhang2, Ming Zhao4, Fang Zhou2, Guo-Hua Zhou2, Jie Zhu2 and Si-Cheng Zou1 1 National Astronomical Observatories, Chinese Academy of Sciences, Beijing 100012, China; 2 Nanjing Institute of Astronomical Optics and Technology, National Astronomical Observatories, Chinese Academy of Sciences, Nanjing 210042, China 3 University of Science and Technology of China, Hefei 230026, China 4 Shanghai Astronomical Observatory, Chinese Academy of Sciences, Shanghai 200030, China 5 Institute of Architecture Design and Research, Chinese Academy of Sciences, Beijing 100190, China. Research in Astronomy and Astrophysics. 2012(09)
[4]银河系的结构和演化[J]. 赵君亮. 自然杂志. 2005(01)
本文编号:3181325
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