同时,平台将扩展多模态数据(如望远镜观测原始数据)的接入,推动天文学向数据密集型科研范式转型。 通过上述功能,NASA ADS不仅成为天文学研究的“基础设施”,更通过技术创新持续降低学术资源的获取门槛,助力全球科学共同体发展。访问地址:https://ui.adsabs.harvard.edu/。
adsabs.github.ioadsabs.github.ioPublic Help, blog, API documentation, and much more for the ADS services SCSS1319 Nasa-ADS-Query-Importer-WidgetNasa-ADS-Query-Importer-WidgetPublic Import any ADS query you can perform on an ADS server in your website. ...
这篇文章发表于2014年,作者是John Brandenburg,可从下面哈佛大学官网链接中找到。 链接 John Brandenburg通过分析火星大气的一些元素,得出结论,认为火星在历史上发生两次人为的热核爆炸,而且爆炸是在空中引发的,进而导致火星气候骤变,不再宜居。 John Brandenburg的研究,与另一位科学界的老前辈Gilbert Levin恰恰相符。Glbe...
Please reference Thompson et al. 2018, ApJS, 235, 38 (http://adsabs.harvard.edu/abs/2018ApJS..235...38T) if you make use of this code or the files provided. Notices Copyright © 2017 United States Government as represented by the Administrator of the National Aeronautics and Space Adm...
arizona.edu/~showman/publications/showman-malhotra-1999.pdf四同样:http://adsabs.harvard.edu/abs/...
SAO/NASA ADS General Science Abstract Service 来自 adsabs.harvard.edu 喜欢 0 阅读量: 6 作者: DP Miller 摘要: The emphasis was on systematic and efficient access to correctly recorded and processedthoughts.63 We know that Babbage' s admiration for Watt, and what he 62. William J. ...
adsabs.harvard.edu ResearchGate (全网免费下载) ResearchGate mendeley.com 钛学术 查看更多 相似文献 参考文献 引证文献Worldwide Use and Impact of the NASA Astrophysics Data System Digital Library The NASA Astrophysics Data System (ADS), along with astronomy's journals and data centers (a collaboration...
It states that the astronomical journal literatures are freely available to the readers at the website http://adsabs.harvard.edu/abstract_service.html and items can be searched under the names of an author of words in the abstracts. It mentions about the Astrophysics Data System (ADS) which ...
3 3 "label": "NASA ADS", 4 - "creator": "Philipp Zumstein, Asa Kusuma and Ramesh Srigiriraju", 5 - "target": "^https?://(ukads|cdsads|ads|adsabs|esoads|adswww|www\\.ads)\\.(inasan|iucaa\\.ernet|nottingham\\.ac|harvard|eso|u-strasbg|nao\\.ac|astro\\.puc|bao\\...
人们或许因为它是地球唯一的天然卫星,也是距离地球最近的天体,对它的研究很充分,所以会觉得月球的亮度应该是一个很容易回答的问题。但是,你错了。 人们通常观测月球的方式都是在地球上通过大气层来进行的,这样就产生了很多的干扰,让月球表面反射的阳光量无法以超过 97% 的准确度进行计算。