Orbit Design for Twin-spacecraft Space VLBI 被引量：3

Orbit Design for Twin-spacecraft Space VLBI

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摘要 Space Very Long Baseline Interferometry(S-VLBI) is an aperture synthesis technique utilizing an array of radio telescopes including ground telescopes and space orbiting telescopes.It can achieve much higher spatial resolution than that from the ground-only VLBI.In this paper,a new concept of twin spacecraft S-VLBI has been proposed,which utilizes the space-space baselines formed by two satellites to obtain larger and uniform uv coverage without atmospheric influence and hence achieve high quality images with higher angular resolution.The orbit selections of the two satellites are investigated.The imaging performance and actual launch conditions are all taken into account in orbit designing of the twin spacecraft S-VLBI.Three schemes of orbit design using traditional elliptical orbits and circular orbits are presented.These design results can be used for different scientific goals.Furthermore,these designing ideas can provide useful references for the future Chinese millimeter-wave S-VLBI mission. Space Very Long Baseline Interferometry(S-VLBI) is an aperture synthesis technique utilizing an array of radio telescopes including ground telescopes and space orbiting telescopes.It can achieve much higher spatial resolution than that from the ground-only VLBI.In this paper,a new concept of twin spacecraft S-VLBI has been proposed,which utilizes the space-space baselines formed by two satellites to obtain larger and uniform uv coverage without atmospheric influence and hence achieve high quality images with higher angular resolution.The orbit selections of the two satellites are investigated.The imaging performance and actual launch conditions are all taken into account in orbit designing of the twin spacecraft S-VLBI.Three schemes of orbit design using traditional elliptical orbits and circular orbits are presented.These design results can be used for different scientific goals.Furthermore,these designing ideas can provide useful references for the future Chinese millimeter-wave S-VLBI mission.

作者 ZHANG Cheng WU Xia ZHENG Jianhua WU Ji

机构地区 Key Laboratory of Microwave Remote Sensing Key Laboratory of Electronics and Information Technology for Space Systems

出处《空间科学学报》 CAS CSCD 北大核心 2015年第4期502-510,共9页 Chinese Journal of Space Science

基金 Supported by the Natural Science Foundation of China(40701100,40801136) the Strategic Priority Program on Space Science of the Chinese Academy of Sciences(XDA04060803)

关键词 VLBI TWIN SPACECRAFT ORBIT design VLBI Twin spacecraft Orbit design

分类号 V412.41 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献9

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1KUDRIASHOV Volodymyr,MARTIN-NEIRA Manuel,BARAT Itziar,MARTIN IGLESIAS Pertonilo,DAGANZO-EUSEBIO Elena,ALAGHA Nader,VALENTA Vaclav.System Design for the Event Horizon Imaging Experiment Using the PECMEO Concept[J].空间科学学报,2019,39(2):250-266. 被引量：1
2MARTIN-NEIRA M,KUDRIASHOV V,BARAT I,DUESMANN B,DAGANZO E.Space-to-space Radio Interferometry System from Medium Earth Orbits[J].空间科学学报,2019,39(4):544-562.
3KUDRIASHOV V,MARTIN-NEIRA M,ROELOFS F,FALCKE H,BRINKERINK C,BARYSHEV A,HOGERHEIJDE M,YOUNG A,POURSHAGHAGHI H,KLEIN-WOLT M,MOSCIBRODZKA M,DAVELAAR J,BARAT I,DUESMANN B,VALENTA V,PERDIGUES ARMENGOL J M,DE WILDE D,MARTIN IGLESIAS P,ALAGHA N,VAN DER VORST M.An Event Horizon Imager(EHI) Mission Concept Utilizing Medium Earth Orbit Sub-mm Interferometry[J].空间科学学报,2021,41(2):211-233.

二级引证文献1

1KUDRIASHOV V,MARTIN-NEIRA M,ROELOFS F,FALCKE H,BRINKERINK C,BARYSHEV A,HOGERHEIJDE M,YOUNG A,POURSHAGHAGHI H,KLEIN-WOLT M,MOSCIBRODZKA M,DAVELAAR J,BARAT I,DUESMANN B,VALENTA V,PERDIGUES ARMENGOL J M,DE WILDE D,MARTIN IGLESIAS P,ALAGHA N,VAN DER VORST M.An Event Horizon Imager(EHI) Mission Concept Utilizing Medium Earth Orbit Sub-mm Interferometry[J].空间科学学报,2021,41(2):211-233.

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Orbit Design for Twin-spacecraft Space VLBI 被引量：3

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