ISOCHRON (spacecraft)

ISOCHRON
Names	Inner SOlar system CHRONogy
Mission type	Lunar sample-return
Operator	NASA
Start of mission
Launch date	2025 (proposed)
Moon lander
Landing site	South of Aristarchus plateau
Sample mass	150 g (5.3 oz)
	Discovery Program

ISOCHRON (Inner SOlar system CHRONogy) is a proposed lunar sample-return mission that would retrieve samples of the youngest lunar mare basalt.

This robotic mission was proposed in July 2019 to NASA's Discovery Program.^[1]^[2] It was not shortlisted.

Overview

Location of the Aristarchus crater and Aristarchus plateau on the Moon.

ISOCHRON would address fundamental questions about the composition of the lunar crust and the time-stratigraphy of lunar volcanic processes, with implications for all of the terrestrial planets.^[2] There is a stretch of nearly 2 billion years of lunar history that planetary scientists have not been able to date because the Apollo missions did not retrieve any young rocks.^[1] Lunar mare basalts formed through partial melting of the mantle, thus serve as probes of the structure and composition of the interior.^[2] The stated scientific objective of the mission is: "[To] make high-precision radiometric age measurements on these relatively young basalts to fill the existing gap in age-correlated crater size-frequency distributions (CSFDs), thereby greatly improving this widely-used tool for estimating the ages of exposed surfaces on rocky bodies."^[2]

The proposed ISOCHRON mission concept would have a robotic lander land just south of Aristarchus plateau and retrieve about 150 g (5.3 oz) of a basalt sample estimated to be 1.5 to 2.0 billion years old.^[2] The sample would be placed in a small container, launched to Earth, and it would be curated at NASA's Lunar Sample Laboratory Facility.

The Principal Investigator is Dave Draper, at NASA's Johnson Space Center in Texas.^[1]

Location

The sample would be obtained from the Aristarchus plateau, located in the midst of the Oceanus Procellarum, a large expanse of lunar mare. This is a tilted crustal block, about 200 km across, that rises to a maximum elevation of 2 km above the mare in the southeastern section.^[3]

References

^ ^a ^b ^c ^d ^e ^f Meghan Bartels (March 25, 2019) NASA Needs Fresh Moon Rocks. This Sample-Return Mission Could Get Them. Space.
^ ^a ^b ^c ^d ^e ^f D. S. Draper, R. L. Klima, S. J. Lawrenc1, B. W. Denevi, and the ISOCHRON Team (2019). "The Inner Solar System Chronology (ISOCHRON) Discovery Mission: Returning Samples of the Youngest Lunar Mare Basalts" (PDF). 50th Annual Lunar and Planetary Science Conference (2132). 50th Lunar and Planetary Science Conference: 1110. Bibcode:2019LPI....50.1110D.{{cite journal}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link) Poster
^ "Aristarchus Region: Multispectral Mosaic of the Aristarchus Crater and Plateau". Lunar and Planetary Institute. Retrieved 2006-08-08.

[M_Bartels_2019-1] ^ ^a ^b ^c ^d ^e ^f Meghan Bartels (March 25, 2019) NASA Needs Fresh Moon Rocks. This Sample-Return Mission Could Get Them. Space.

[Draper_2019-2] ^ ^a ^b ^c ^d ^e ^f D. S. Draper, R. L. Klima, S. J. Lawrenc1, B. W. Denevi, and the ISOCHRON Team (2019). "The Inner Solar System Chronology (ISOCHRON) Discovery Mission: Returning Samples of the Youngest Lunar Mare Basalts" (PDF). 50th Annual Lunar and Planetary Science Conference (2132). 50th Lunar and Planetary Science Conference: 1110. Bibcode:2019LPI....50.1110D.{{cite journal}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link) Poster

[clementine-3] "Aristarchus Region: Multispectral Mosaic of the Aristarchus Crater and Plateau". Lunar and Planetary Institute. Retrieved 2006-08-08.

[1]

[2]

[3]

Overview

Location

See also

References