by Tereza Pultarova
September 01, 2022
from Space Website





The image shows

flux data obtained by SOFIA's FORCAST instrument

overlaid on an orthographic projection of the Moon,

creating a map of water abundances in the Moretus Crater region.

Surface lunar features are clearly visible within the flux data.

In this image, lighter colors correspond to a higher flux,

and darker corresponds to a lower flux.

Credit: Honniball et al. and Applied Coherent Technology Corp.

The Moon reference image is constructed

using the LRO-WAC albedo mosaic.

Source

 



New observations by the flying telescope SOFIA confirmed there is water on the illuminated surface of the moon.

Observations made in 2020 first suggested that water might be present on Earth's celestial companion outside of the permanently shadowed polar craters.

 

The new observations confirm these suggestions and hint that there might be even more water than previously thought.

 

SOFIA, or Stratospheric Observatory for Infrared Astronomy, is a NASA-led mission, which observes the universe in infrared light from aboard a converted Boeing 747.

 

The observatory, which made the 2020 discovery, has now detected molecular water around the Moretus Crater near the moon's south pole. 

 

 

 

 

The presence of water outside of the permanently shadowed areas can shed light on the origin of lunar water, the scientists behind the observations said in a statement.

 

In 2020, water was detected around the nearby Clavius Crater, but that data was deemed 'insufficient'.

 

The new study (Regional Map of Molecular Water at High Southern Latitudes on the Moon Using 6 μm Data From the Stratospheric Observatory for Infrared Astronomy), the researchers said, included a larger number of observations.

 

In fact, the new measurements were so detailed they allowed the team to create a map of water distribution in the Moretus Crater region, which shows how the abundance varies depending on temperature and latitude:

the closer to the pole and the lower the temperature, the more water there is...

"Water on the moon is exciting because it allows us to study the processes that occur not only on the moon, but also on other airless bodies," Casey Honniball, a postdoctoral fellow at NASA's Goddard Space Flight Center in Greenbelt, Maryland, who led the study, said in the statement.

 

"[Water] is of extreme importance as a resource for human exploration.

 

If you can find [sufficiently] large concentrations of water on the surface of the moon - and learn how it's being stored and what form it's in - you can learn how to extract it and use it for breathable oxygen or rocket fuel for a more sustainable presence."

SOFIA made the measurements using its FORCAST instrument, an infrared camera optimized to study planet-like objects.

 

By overlying the data on a three-dimensional map of the moon's surface, the scientists could visualize the water distribution in detail. 

 

SOFIA, flying above 99% of the water vapor content in Earth atmosphere, can better distinguish between molecules of water and hydroxyl (OH) than ground-based telescopes.

 

Hydroxyl, which contains only one hydrogen atom instead of the two present in water, is more abundant on the moon because it's directly produced in the interactions between the solar wind and the lunar soil. 

"The moon is constantly being bombarded by solar wind, which is delivering hydrogen to the lunar surface," Honniball said.

 

"This hydrogen interacts with oxygen on the lunar surface to create hydroxyl."

Water arises from this hydroxyl when the moon's surface heats up during micrometeorite strikes, the researchers said. A large portion of this water evaporates into space but some remains trapped in the lunar rocks. 

 

Scientists will learn in great detail how much water there really is around the moon's south pole after 2024 when NASA's Volatiles Investigating Polar Exploration Rover (VIPER) starts its mission.

 

SOFIA, in the meantime, will conclude its mission at the end of September.

 

The study was published in the journal Geophysical Research Letters.