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Using NASA’s Stratospheric Observatory for Infrared Astronomy (SOFIA), the researchers, including those from the University of Hawaii in the US, detected water molecules (H2O) in Clavius Crater — one of the largest craters visible from the Earth, located in the Moon’s southern hemisphere.
While earlier studies of the Moon’s surface, including those conducted during the Indian Space Research Organisation’s (ISRO) Chandrayaan-1 mission, detected some form of hydrogen, the NASA scientists said these were unable to distinguish between water and its close chemical relative, hydroxyl (OH).
Data from the current study, published in the journal Nature Astronomy, revealed that the Clavius Crater region has water in concentrations of 100 to 412 parts per million — roughly equivalent to a 12-ounce bottle of water — trapped in a cubic meter of soil spread across the lunar surface.
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“Prior to the SOFIA observations, we knew there was some kind of hydration. But we didn’t know how much, if any, was actually water molecules — like we drink every day — or something more like drain cleaner,” said Casey Honniball, the lead author of the study from the University of Hawaii.
Despite the small amounts, they said the discovery raises new questions about how water is created and how it persists on the harsh, airless lunar surface.
“We had indications that H2O — the familiar water we know — might be present on the sunlit side of the Moon. Now we know it is there. This discovery challenges our understanding of the lunar surface and raises intriguing questions about resources relevant for deep space exploration,” said Paul Hertz, director of the Astrophysics Division in the Science Mission Directorate at NASA Headquarters in Washington.
Whether the water SOFIA found is easily accessible for use as a resource remains to be determined, the researchers added.
According to the scientists, SOFIA offered a new means of looking at the Moon, flying at altitudes of up to 45,000 feet.
They said the modified Boeing 747SP jetliner with a 106-inch diameter telescope reaches above 99 per cent of the water vapor in the Earth’s atmosphere to get a clearer view of radiation from the universe in the infrared wavelength.
Using its Faint Object infraRed CAmera for the SOFIA Telescope (FORCAST), the researchers said SOFIA was able to pick up the specific wavelength unique to water molecules and discovered a relatively surprising concentration in the sunny Clavius Crater.
“Without a thick atmosphere, water on the sunlit lunar surface should just be lost to space. Yet somehow we’re seeing it. Something is generating the water, and something must be trapping it there,” Honniball said.
The scientists believe several forces could be at play in the delivery or creation of this water.
One possibility they said could be from micrometeorites raining down on the lunar surface, carrying small amounts of water, which may deposit the water on the lunar surface upon impact.
The researchers hypothesised that there may also be a two-step process whereby the Sun’s solar wind delivers hydrogen to the lunar surface and causes a chemical reaction with oxygen-bearing minerals in the soil to create hydroxyl.
Meanwhile, they said radiation from the bombardment of micrometeorites could be transforming that hydroxyl into water.
Commenting on how the water was stored on the lunar surface, the scientists noted that the water could be trapped into tiny beadlike structures in the soil that form out of the high heat created by micrometeorite impacts.
Another possibility is that the water could be hidden between grains of lunar soil and sheltered from the sunlight –potentially making it a bit more accessible than water trapped in beadlike structures, they noted in a statement.
“It was, in fact, the first time SOFIA has looked at the Moon, and we weren’t even completely sure if we would get reliable data, but questions about the Moon’s water compelled us to try,” said Naseem Rangwala, SOFIA’s project scientist at NASA’s Ames Research Center in the US.
“It’s incredible that this discovery came out of what was essentially a test, and now that we know we can do this, we’re planning more flights to do more observations,” Rangwala added.