星际芯片在太阳系行星探索:加拿大的机会

IF 0.2
J. Moores, H. Podmore
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引用次数: 0

摘要

这篇论文的目的是在太空界引发一场讨论,讨论星芯片架构如何有益于太阳系的探索,以及加拿大在推进和使用这项技术方面可能发挥的作用。我们发现,到本世纪20年代中期,如果有可行的途径实施这项技术,所需的开发量将大大减少。加拿大在光学、航天器发展和地理位置方面的专门知识在利用这一机会方面比其他航天国家具有独特的优势。一个位于北极圈上方的1-100兆瓦的设施将允许通过行星飞掠探索太阳系的大部分。此外,由于星芯片可以制造优秀的进入飞行器,还可以制造有效的太阳帆,这种架构将使网络科学能够在太阳系内部的行星附近以及有大量大气层的行星表面上进行,比如火星、金星、泰坦和巨行星。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Starchips in solar system planetary exploration: an opportunity for Canada
This paper is intended to provoke a discussion within the space community of how a starchip architecture could benefit the exploration of the solar system and the part that Canada might play in advancing and using this technology. We find that the amount of required development is greatly reduced with a viable pathway to implementing this technology by the mid 2020s. Canada's expertise in optics, spacecraft development and geographical position offers unique advantages over other spacefaring nations in taking advantage of this opportunity. A 1-100 MW facility located above the Arctic Circle would allow for the exploration of much of the solar system through planetary fly-bys. Furthermore, as starchips make excellent entry vehicles and may make effective solar sails, such architecture would enable network science near planets in the inner solar system and on the surfaces of those with substantial atmospheres, such as Mars, Venus, Titan and the Giant Planets.
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CiteScore
1.00
自引率
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发文量
2
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