The Comet Nucleus Sample and Return (CNSR) mission has been of great interest for many years. The mission objective is very clear and it provides the clues to the solar system and the origin of life. The paper presents the feasible CNSR scenario taking the advantage of Solar Electric Propulsion (SEP) to the comet Wilson-Harrington. The plan is found feasible, and the launch window is open in 2005 and the spacecraft can return the sample back to the Earth in only eight years. Another window that is open in 2009-2010 is also provided here. They are making use of the ion engine propulsion accumulating the orbital energy at Earth distance first, followed by the Earth gravity assist. This is the unique point enabling even the smaller spacecraft to accomplish this high energy mission. This strategy accelerates the spacecraft orbital energy up to 36 to 40 km2/s~2 in C_3 that is adequate for the flight to the comet Wilson-Harrington. The idea shown here also includes 1) the rendezvous point to be at Earth distance so that the electric propulsion is utilized at maximum, 2) the target comet to be extinct so that the sampling and in-situ measurement scenario be robust. The trajectory synthesis developed here and tactical target selection make this impressive mission to be envisioned even by smaller missions.
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机译:多年来,彗核采样与返回(CNSR)任务引起了人们的极大兴趣。任务目标非常明确,它为太阳系和生命起源提供了线索。本文介绍了利用威尔逊-哈灵顿彗星利用太阳能电力推进(SEP)的可行CNSR方案。该计划被认为是可行的,发射窗口于2005年打开,航天器仅用8年就可以将样本返回地球。还提供了2009-2010年打开的另一个窗口。他们首先利用离子引擎的推进力在地球距离处积累轨道能量,然后再利用地球重力辅助。这是使即使是较小的航天器也能够完成此高能量任务的独特点。这种策略将航天器的轨道能量在C_3中加速至36至40 km2 / s〜2,足以飞往威尔逊-哈灵顿彗星。此处显示的想法还包括:1)会合点位于地球距离处,以便最大程度地利用电推进; 2)灭绝的目标彗星,从而使采样和现场测量场景变得可靠。这里发展的轨迹综合和战术目标的选择,使这个令人印象深刻的任务,即使是较小的任务也可以设想。
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