In-flight operation of the Hayabusa2 ion engine system on its way to rendezvous with asteroid 162173 Ryugu

Japan's second asteroid explorer Hayabusa2 was successfully launched on Dec 3, 2014, to return a sample from asteroid 162173 Ryugu by 2020. Four xenon ion thrusters based on electron cyclotron resonance discharge propelled the spacecraft for 547 h during its first year in space. Hayabusa2 compl...

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Veröffentlicht in:	Acta astronautica 2020-01, Vol.166, p.69-77
Hauptverfasser:	Nishiyama, Kazutaka, Hosoda, Satoshi, Tsukizaki, Ryudo, Kuninaka, Hitoshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Asteroid explorer Asteroids Cyclotron resonance Earth gravitation Electron cyclotron resonance Hayabusa2 Ion engine Ion engines Ion thrusters Japanese spacecraft Microbalances Microwave discharge Quartz crystals Rendezvous Ryugu Space flight Spacecraft Xenon
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description	Japan's second asteroid explorer Hayabusa2 was successfully launched on Dec 3, 2014, to return a sample from asteroid 162173 Ryugu by 2020. Four xenon ion thrusters based on electron cyclotron resonance discharge propelled the spacecraft for 547 h during its first year in space. Hayabusa2 completed an Earth gravity assist on Dec 3, 2015, followed by 798 and 2593 h of ion thruster operation, called the first and second transfer phases of delta-v, respectively. The third transfer phase of delta-v was conducted from Jan 10, 2018, to Jun 6, 2018, in which the final 2475-h ion thruster operation was executed before the rendezvous with Ryugu. The cumulative operating times for the four ion thrusters are 6,450, 11, 5,193, and 6418 h. This paper summarizes the 6515-h powered flight by the ion engine system, which produced 1015 m/s delta-v, in terms of thruster performance change, roll torques generated by various combinations of ion thrusters, and spacecraft surface erosion history measured by two quartz crystal microbalances located near the thrusters. In parallel with the space flight operation, an engineering model of the microwave discharge neutralizer has been under long-duration testing on the ground since 2012. It has accumulated 55,170 h of diode-mode operation as of Mar 15, 2019. •Hayabusa2, JAXA's asteroid explorer arrived at its destination, asteroid Ryugu.•A cluster of four microwave discharge ion engines worked very well.•The cumulative operation time was 6515 h, producing 1015 m/s delta-v.•An engineering model of the neutralizer has passed 55,170 h of ground operation.
doi_str_mv	10.1016/j.actaastro.2019.10.005
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subjects	Asteroid explorer Asteroids Cyclotron resonance Earth gravitation Electron cyclotron resonance Hayabusa2 Ion engine Ion engines Ion thrusters Japanese spacecraft Microbalances Microwave discharge Quartz crystals Rendezvous Ryugu Space flight Spacecraft Xenon
title	In-flight operation of the Hayabusa2 ion engine system on its way to rendezvous with asteroid 162173 Ryugu
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