Near-rectilinear halo orbit

Near Rectilinear Halo Orbit (NRHO) in cislunar space. Illustrated by a.i. solutions, Inc. using the FreeFlyer software

A near-rectilinear halo orbit (NRHO) is a type of halo orbit that has slightly curved, so near straight sides, between close passes with an orbiting body. A use of such an orbit is currently planned in cislunar space but, as of early-2021, has not been used on any spacecraft. This planned Moon-centric orbit will serve as a staging area for future lunar missions. However, an NRHO need not be involved with the Earth-Moon system, and the orbit could be used in a variety of other contexts around other bodies in the Solar System and beyond.

NRHO orbits are one theoretical solution to the classic three-body problem in gravitational mechanics.

Planned NRHO usage[]

By 2018, NASA had begun considering use of a near-rectilinear halo orbit for a future lunar mission,^[1]^[2] and by 2020, an NRHO is the planned orbit for the NASA Lunar Gateway, to be orbiting Earth-Moon L₂ in circa 2024. The Gateway orbit is planned to be a highly-elliptical seven-day NRHO around the Moon, which would bring the small space station within 3,000 kilometers (1,900 mi) of the lunar north pole at closest approach and as far away as 70,000 kilometers (43,000 mi) over the lunar south pole.^[3]^[4]^[5]

By 2019, the company Advanced Space was building a 12-unit cubesat to fly on a Gateway precursor mission for NASA. Named CAPSTONE (Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment), the spacecraft is expected to be the first spacecraft to operate in a NRHO lunar orbit in March 2022.^[6] The mission objective is to test and verify the calculated orbital stability planned later for the Lunar Gateway space station, and the spacecraft will fly the identical orbital parameters planned later for Gateway. It will also test a navigation system that will measure spacecraft position relative to NASA's Lunar Reconnaissance Orbiter (LRO), without relying on ground stations.^[5]

References[]

^ NASA Shapes Science Plan for Deep-Space Outpost Near the Moon, space.com, March 2018.
^ How a New Orbital Moon Station Could Take Us to Mars and Beyond, space.com, October 2017, video with refs
^ Angelic halo orbit chosen for humankind's first lunar outpost, European Space Agency, published by PhysOrg, 19 July 2019, accessed 15 June 2020.
^ Halo orbit selected for Gateway space station. David Szondy, New Atlas. 18 July 2019.
^ ^a ^b Foust, Jeff (16 September 2019). "NASA cubesat to test lunar Gateway orbit". SpaceNews. Retrieved 15 June 2020.
^ https://spacenews.com/capstone-launch-delayed-to-march-2022/

External links[]

Angelic halo orbit for Gateway (video), ESA, 17 July 2019. The planned Lunar Gateway orbit (c. 2024) appears a bit like a halo around the Moon from the point of view of an observer on the Earth.

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[sdc201803-1] NASA Shapes Science Plan for Deep-Space Outpost Near the Moon, space.com, March 2018.

[sdc201710-2] How a New Orbital Moon Station Could Take Us to Mars and Beyond, space.com, October 2017, video with refs

[physorg20190719-3] Angelic halo orbit chosen for humankind's first lunar outpost, European Space Agency, published by PhysOrg, 19 July 2019, accessed 15 June 2020.

[4] Halo orbit selected for Gateway space station. David Szondy, New Atlas. 18 July 2019.

[sn20190916-5] Foust, Jeff (16 September 2019). "NASA cubesat to test lunar Gateway orbit". SpaceNews. Retrieved 15 June 2020.

[6] ttps://spacenews.com/capstone-launch-delayed-to-march-2022/

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