NASA Psyche Mission Mars Flyby Highlights | JPL
Mars - Psyche Spacecraft Imager A - May 15, 2026
This view of the Martian surface shows streaks that have formed due to wind blowing over impact craters in the Syrtis Major region. The wind streaks extend to about 30 miles (50 kilometers) long, and the large craters near center-bottom of the scene average around 30 miles in diameter.
This view extends from the south polar cap northwards to the Valles Marineris canyon system and beyond.
NASA Psyche Mission emblem
NASA’s Psyche spacecraft performed a successful flyby of Mars on May 15, 2026. This provided the mission team with a valuable practice run before the spacecraft's arrival at the mysterious asteroid Psyche in 2029. The Psyche spacecraft came within 2,864 miles (4,609 kilometers) of the planet’s surface. The flyby delivered a gravity assist from Mars generating a critical boost in speed and adjusting the spacecraft’s orbital plane without using any onboard propellant, sending it on its way toward the metal-rich asteroid Psyche.
The spacecraft is now headed directly toward the asteroid, located in the main asteroid belt between Mars and Jupiter. After the Mars flyby, the flight team analyzed radio signals between the spacecraft and NASA’s Deep Space Network (DSN), the agency’s global system for communicating with interplanetary spacecraft, to confirm that Psyche was on the correct trajectory.
“Although we were confident in our calculations and flight plan, monitoring the DSN’s Doppler signal in real time during the flyby was still exciting,” said Don Han, Psyche’s navigation lead at NASA’s Jet Propulsion Laboratory in Southern California. “We’ve confirmed that Mars gave the spacecraft a 1,000 mile‑per‑hour boost and shifted its orbital plane by about 1 degree relative to the Sun. We are now on course for arrival at the asteroid Psyche in summer 2029.”
In the days running up to and during close approach, all of Psyche’s instruments were powered up for calibration efforts, including its imagers, magnetometers, and gamma-ray and neutron spectrometer. As a bonus, Psyche captured Mars images from a rare perspective.
Because Psyche approached Mars from a high phase angle, the planet appeared as a thin crescent in the days running up to the close approach, lit by sunlight reflecting off its surface. In observations from the spacecraft’s multispectral imager, the crescent appeared brighter and extended farther around the planet’s disk than anticipated because of the strong scattering of sunlight through the planet’s dusty atmosphere. As Psyche passed from Mars’ nighttime skies to daytime, it took a rapid series of pictures of the surface around the time of closest approach.
“We’ve captured thousands of images of the approach to Mars and of the planet’s surface and atmosphere at close approach. This dataset provides unique and important opportunities for us to calibrate and characterize the performance of the cameras, as well as test the early versions of our image processing tools being developed for use at the asteroid Psyche,” said Jim Bell, the Psyche imager instrument lead at Arizona State University (ASU) in Tempe. “As the spacecraft continues its journey after the flyby, we’ll continue calibration imaging of Mars for the rest of the month as it recedes into the distance.”
Bell also leads the Mastcam-Z imaging investigation on NASA’s Perseverance Mars rover mission team that was among several missions that provided complementary surface and atmospheric imaging, as well as navigation data, during the flyby to help with calibration efforts. Other missions involved include NASA’s Mars Reconnaissance Orbiter, the 2001 Mars Odyssey orbiter, and the Curiosity rover, along with the European Space Agency’s Mars Express and ExoMars Trace Gas Orbiter.
In addition to the imager, early calibration measurements made by Psyche’s magnetometers may have detected Mars’ bow shock as the spacecraft passed the planet. The gamma-ray and neutron spectrometer team was also quickly gathering data to calibrate the instrument by comparing their measurements with the large pool of existing Mars data.
With Mars in the rearview mirror, the spacecraft will soon resume using its solar-electric propulsion system to reach the main asteroid belt. When it arrives in August 2029, it will insert itself into orbit around the asteroid Psyche. It is thought to be the partial core of a planetesimal, a building block of an early planet. Through a series of circular orbits that go lower and then higher in altitude around Psyche, about 173 miles (280 kilometers) across at its widest point, the spacecraft will map the asteroid and gather science data.
If the asteroid proves to be the metallic core of an ancient planetesimal, it could offer a one-of-a-kind window into the interior of rocky planets like Earth.
“We’ve been anticipating the Mars flyby for years, but now it’s complete. We can thank the Red Planet for giving our spacecraft a critical gravitational slingshot farther into the solar system,” said Lindy Elkins-Tanton, principal investigator for Psyche at the University of California, Berkeley. “Onward to the asteroid Psyche!”
The Psyche mission is led by Arizona State University (ASU). A division of Caltech in Pasadena, JPL is responsible for the mission’s overall management, system engineering, integration and test, and mission operations. Intuitive Machines in Palo Alto, California, provided the high-power solar electric propulsion spacecraft chassis. The operations of the imager instrument are led by ASU, collaborating with Malin Space Science Systems in San Diego on the design, fabrication, and testing of the cameras.
Psyche is the 14th mission selected as part of NASA’s Discovery Program, managed by the agency’s Marshall Space Flight Center in Huntsville, Alabama. NASA’s Launch Services Program, based at NASA’s Kennedy Space Center in Florida, managed the launch service.
For more information about NASA’s Psyche mission, visit:
Credit: NASA/JPL-Caltech/ASU
Image Dates: May 15-16, 2026
Image Dates: May 15-16, 2026
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