Spaceflight Insider

New NASA mission could solve mystery of asteroid Psyche’s water

Psyche spacecraft at an asteroid

Artist’s concept of the Psyche spacecraft, which is planned to conduct a direct exploration of an asteroid thought to be a stripped planetary core. Image & Caption Credit: SSL/ASU/P. Rubin/NASA/JPL-Caltech

Discovered in 1852 by Italian astronomer Annibale de Gasparis, Psyche is one of the ten most massive asteroids in the asteroid belt. Although Psyche is thought to be a world made of metal, scientists have recently found the presence of water on this minor planet. The new findings, which baffled researchers, could be confirmed and further studied by a newly announced NASA mission – Psyche.

Psyche is an irregularly shaped M-type asteroid with a diameter of about 124 miles (200 kilometers). Several studies conducted over the last decade suggest that this celestial body is primarily composed of metal and that it has a surface which is also rich in metals. However, recent research carried out by a team of scientists led by Driss Takir of the U.S. Geological Survey (USGS) adds a mystery to our understanding of this small rocky world.

NASA Psyche mission above asteroid NASA Space Systems Loral image posted on SpaceFlight Insider

Image Credit: Space Systems Loral / NASA

Researchers observed Psyche with the SpeX spectrograph located at NASA’s Infrared Telescope Facility (IRTF) in Hawaii. They were searching for evidence of hydration on the asteroid. Scientists discovered that Psyche’s spectra exhibited a 3-micron absorption feature, possibly due to water or possibly hydroxyl.

The new findings suggest that Psyche might not have a metallic core and could actually be a water-rich asteroid. This left a most perplexing question, What is the origin of the water on this rocky world? Takir’s team offers few plausible explanations for this phenomenon.

“It is possible that water-rich minerals detected on Psyche might have been delivered to its surface by carbonaceous asteroids that impacted Psyche in the distant past. We also think that Psyche, and some other M-type asteroids, may not be entirely exposed metallic core. What we see might instead have been a core-mantle boundary of a differentiated body that was disrupted via impacts. Solar wind could be another mechanism that can produce hydroxyl by interacting with the surface of Psyche and some other M-type asteroids,” Takir told

Although IRTF is one of the most optimized and suitable telescopes for detecting water and hydroxyl on the surface of asteroids, it could never replace a scientific probe examining its target in situ (on site). That is why sending a dedicated spacecraft equipped with a set of specialized instruments should allow the scientists to better characterize hydration on the surface of Psyche and solve the mystery of the origin of its water.

Such a dedicated mission to Psyche is in its early stages of development as NASA has announced on Jan. 4 that it will send a probe to this asteroid under the agency’s Discovery Program. The “Psyche” spacecraft is slated to be launched in 2023 and expected to arrive at its destination in 2030. If everything goes as planned, the mission would spend 20 months in orbit around the asteroid – mapping it and studying its properties.

While the spacecraft’s primary goals will be to determine whether Psyche really is a protoplanetary core, how old it is, and what its surface is like – it could be used to confirm the findings presented by Takir’s team and unveil the mechanism behind the hydration of this small world.

In order to perform its scientific studies, instruments have been proposed that would be carried on the orbiter. It could potentially be equipped with a multispectral imager capable of acquiring high-resolution images using filters to discriminate between the asteroid’s metallic and silicate constituents. Another tool would be a gamma-ray and neutron spectrometer that would detect, measure, and map Psyche’s elemental composition. Moreover, the probe could also be fitted with a magnetometer designed to detect and measure the asteroid’s remnant magnetic field.

Meanwhile, until the newly announced spacecraft reaches Psyche, Takir’s research team will focus on studying other water-rich asteroids using ground-based instruments and their own techniques of observations.

“We will continue studying Psyche, and other water-rich asteroids, to give us further insight into the formation and evolution of the Solar System. Although detecting water is very challenging using ground-based telescopes, we developed some observing tools and data reduction techniques that allow us to characterize the shape of the 3-micron absorption hydration band in asteroids,” Takir concluded.

NASA's Infrared Telescope Facility (IRTF) in Hawaii is where Takir's team carried out their research. Photo Credit: NASA / JPL-Caltech

NASA’s Infrared Telescope Facility (IRTF) in Hawaii is where Takir’s team carried out their research. Photo Credit: NASA / JPL-Caltech



Tomasz Nowakowski is the owner of Astro Watch, one of the premier astronomy and science-related blogs on the internet. Nowakowski reached out to SpaceFlight Insider in an effort to have the two space-related websites collaborate. Nowakowski's generous offer was gratefully received with the two organizations now working to better relay important developments as they pertain to space exploration.

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