UArizona-led asteroid sampling mission's new journey: OSIRIS-APEX
Under the leadership of the University of Arizona's Dani Mendoza DellaGiustina, the former OSIRIS-REx spacecraft sets off on a journey to study asteroid Apophis and take advantage of the asteroid's 2029 flyby of Earth. 

University Communications and NASA Goddard Space Flight Center
Jan. 8, 2024

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A spacecraft flies by an asteroid in the blackness of space
OSIRIS-APEX will approach asteroid Apophis during an exceptionally close flyby of Earth on April 13, 2029. NASA's Goddard Space Flight Center Conceptual Image Lab

At the end of a long-haul road trip, it might be time to kick up your feet and rest awhile – especially if it was a seven-year, 4-billion-mile journey to bring Earth a sample of asteroid Bennu.

But OSIRIS-REx, the NASA mission that accomplished this feat in September, is already well on its way – with a new name – to explore a new destination, this time under the leadership of Dani Mendoza DellaGiustina, an assistant professor at the University of Arizona's Lunar and Planetary Laboratory who previously served as the deputy principal investigator of OSIRIS-REx.

When OSIRIS-REx left Bennu in May 2021 with a sample aboard, its instruments were in great condition, and it still had a quarter of its fuel left. So instead of shutting down the spacecraft after it delivered the sample, the team proposed to dispatch it on a bonus mission to asteroid Apophis, with an expected arrival in April 2029. NASA agreed, and OSIRIS-APEX (Origins, Spectral Interpretation, Resource Identification, and Security – Apophis Explorer) was born.

A rare opportunity at Apophis

After considering several destinations, including Venus and various comets, NASA chose to send the spacecraft to Apophis, an "S-type" asteroid made of silicate materials and nickel-iron – a fair bit different from the carbon-rich, "C-type" Bennu.

The intrigue of Apophis is its exceptionally close approach of our planet on April 13, 2029. Although Apophis will not hit Earth during this encounter or in the foreseeable future, the pass in 2029 will bring the asteroid within 20,000 miles (32,000 kilometers) of the surface – closer than some satellites, and close enough that it could be visible to the naked eye in the Eastern Hemisphere.

Apophis' close encounter with Earth will change the asteroid’s orbit and the length of its 30.6-hour day. The encounter also may cause quakes and landslides on the asteroid's surface that could churn up material and uncover what lies beneath.

"The close approach is a great natural experiment," DellaGiustina said. "We know that tidal forces and the accumulation of rubble pile material are foundational processes that could play a role in planet formation. They could inform how we got from debris in the early solar system to full-blown planets."

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Dani DellaGiustina
OSIRIS-APEX mission principal investigator Dani DellaGiustina. Chris Richards/University Communications

Scientists estimate that asteroids of Apophis' size, about 367 yards (or 340 meters) across, come this close to Earth only once every 7,500 years.

"OSIRIS-APEX will study Apophis immediately after such a pass, allowing us to see how its surface changes by interacting with Earth's gravity," said Amy Simon, the mission's project scientist based at NASA's Goddard Space Flight Center in Greenbelt, Maryland.

Apophis represents more than just the opportunity to learn more about how solar systems and planets form: As it happens, most of the known potentially hazardous asteroids – those whose orbits come within 4.6 million miles of Earth – are also S-types. What the team learns about Apophis can inform planetary defense research, a top priority for NASA.

OSIRIS-APEX: Travel itinerary

By April 2, 2029 – around two weeks before Apophis' close encounter with Earth – OSIRIS-APEX's cameras will begin taking images of the asteroid as the spacecraft catches up to it. Apophis will also be closely observed by Earth-based telescopes during this time. But in the hours after the close encounter, Apophis will appear too near the sun in the sky to be observed by ground-based optical telescopes. This means any changes triggered by the close encounter will be best detected by the spacecraft.

OSIRIS-APEX will arrive at the asteroid later in April 2029, and operate in its proximity for about the next 18 months. In addition to studying changes to Apophis caused by its Earth encounter, the spacecraft will conduct many of the same investigations OSIRIS-REx did at Bennu, including using its instrument suite of imagers, spectrometers and a laser altimeter to closely map the surface and analyze its chemical makeup.

As an encore, OSIRIS-APEX will reprise one of OSIRIS-REx's most impressive acts (minus sample collection), dipping within 16 feet of the asteroid's surface and firing its thrusters downward. This maneuver will stir up surface rocks and dust to give scientists a peek at the material that lies below.

Dante Lauretta, principal investigator of the OSIRIS-REx mission, said he is excited about the extended mission as it holds the promise of uncovering new insights into the solar system's formation and planetary defense.

"As we transition from OSIRIS-REx to OSIRIS-APEX, I'm proud to pass the torch to Dani DellaGiustina and the extended mission team," he said. "OSIRIS-APEX carries the legacy of OSIRIS-REx, and I'm eager to see the discoveries it will make. This mission embodies our relentless pursuit of knowledge and the spirit of exploration."

Although the rendezvous with Apophis is more than five years away, the next milestone on its journey is the first of six close sun passes. Those near approaches, along with three gravity assists from Earth, will put OSIRIS-APEX on course to reach Apophis in April 2029.

Extra info

Learn more about OSIRIS-APEX Principal Investigator Dani DellaGiustina and the mission's target asteroid, Apophis. 

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Media contact(s)

Daniel Stolte

Science Writer, University Communications

Researcher contact(s)

Dani DellaGiustina

Lunar and Planetary Laboratory