Lunar Polar Hydrogen Mapper

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LunaH-Map
Mission type Lunar orbiter
Operator NASA
Website neutron.asu.edu
Mission duration 60 days (planned)
Orbits completed 141 (planned)
Spacecraft properties
Spacecraft LunaH-Map
Spacecraft type CubeSat
Bus 6U
Manufacturer Arizona State University
Payload mass 30 lb (14 kg)[1]
Dimensions 10×20×30 cm
Start of mission
Launch date 30 September 2018
Rocket SLS Block 1
Launch site Kennedy LC-39B
Orbital parameters
Reference system Polar
Perilune 5 km (3.1 mi)
Inclination ≈90° (Polar)

Lunar Polar Hydrogen Mapper, or LunaH-Map, is one of 13 CubeSats planned to be launched with Exploration Mission 1 in 2018. Along with Lunar IceCube and Lunar Flashlight, LunaH-Map will help investigate the possible presence of water-ice on the Moon.[1] Arizona State University began development of LunaH-Map after being awarded a contract by NASA in early 2015. The development team consists of about 20 professionals and students led by Craig Hardgrove, the Principal Investigator.[2]

Objective

LunaH-Map's primary objective is to map the abundance of hydrogen down to one meter beneath the surface of the lunar south pole. It will be inserted into a polar orbit around the Moon, with its periapsis located near the lunar south pole, initially passing above Shackleton Crater.[1] LunaH-Map will provide a high resolution map of the abundance and distribution of hydrogen rich compounds, like water, in this region of the Moon and expand on the less accurate maps made by previous missions. This information may then be used to improve scientific understanding of how water is created and spread throughout the Solar System or used by future manned missions for life support and fuel production.[3]

LunaH-Map, along with other long distance CubeSat missions like Mars Cube One, will demonstrate vital technologies for including CubeSats in other interplanetary missions.[4]

History

LunaH-Map was conceived in a discussion between Craig Hardgrove and future LunaH-Map chief engineer, Igor Lazbin, about issues with the spatial resolution of various neutron detectors in use around Mars. Instruments like Dynamic Albedo of Neutrons on the Curiosity rover can only make measurements of about 3 m (9.8 ft) in radius from between the rear wheels of the rover, while on orbit neutron detectors, like the High Energy Neutron Detector on the Mars Odyssey probe, can only provide large, inaccurate maps over hundreds of square kilometers.[3] Similar issues are present in current maps of hydrogen distributions on the Moon, so Hardgrove designed LunaH-Map to orbit closer to the lunar south pole than previous crafts to improve the resolution of these maps.

By April 2015, Hardgrove had assembled a team composed of members of various government, academic and private institutions and drafted a proposal to NASA. In early 2015 LunaH-Map was one of two CubeSats chosen by NASA's Science Mission Directorate.[3][5]

Hardware

Because of the scope of this mission, several unique challenges need to be addressed in implementing hardware. Typical low Earth orbit (LEO) CubeSats can use "off-the-shelf" hardware, or parts available commercially for other uses, but because LunaH-Map is intended to run longer and travel further than most LEO CubSat missions, commercial parts cannot be expected to perform reliably for the mission duration unmodified. Also, unlike most conventional CubeSats, LunaH-Map will need to navigate to its desired orbit after leaving the launch vehicle, so it will need to be equipped with its own propulsion system.[6]

The primary science instrument will be a scintillation neutron detector composed of elpasolite (Cs2YLiCl6:Ce or CLYC). This material is a scintillator, which measurably glows when it interacts with thermal and epithermal neutrons. LunaH-Map's neutron detector will consist of an array of sixteen 2.5×2.5×2 cm CLYC scintillators.[7]

See also

References

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External links