China's National Space Administration confirmed the probe is now in orbit around the small celestial body

China's Tianwen-2 spacecraft has successfully photographed Kamo'oalewa, marking the first detailed image ever captured of Earth's quasi-moon.

The Chinese National Space Administration confirmed the probe is now in orbit around the small celestial body.

Imagery obtained on July 2 from roughly 12 miles away shows an asymmetrical, angular rock measuring between 16 and 20 metres across.

The asteroid maintains a close relationship with our planet whilst technically orbiting the Sun rather than Earth itself.

Scientists describe the object as pointy and compact, strikingly different from the rounder, rubble-covered asteroids previously visited by spacecraft missions.

The unusual appearance of Kamo'oalewa has captivated researchers worldwide.

"Kamo'oalewa looks amazing, like nothing we've seen floating in space before," said Sabina Raducan, a researcher at the International Space Science Institute in Bern, Switzerland.

Its jagged, splinter-like form suggests a violent past. Cristina Thomas, a planetary scientist at Northern Arizona University, noted: "It could be a remnant of a catastrophic event."

Dr Raducan observed the asteroid resembles debris produced during laboratory impact experiments, pointing to a possible high-velocity collision between larger space rocks as its origin.

The quasi-moon represents the smallest object ever visited by a human-made spacecraft.

Tianwen-2 embarked on its journey in May 2025, traversing approximately 620 million miles through the solar system before reaching its destination.

The spacecraft will spend close to a year conducting scientific observations and mapping the asteroid's surface features before attempting to gather material.

Should the sample collection prove successful, the probe is scheduled to depart Kamo'oalewa in April 2027, with the precious cargo expected to arrive on Earth by late that year.

China would become only the third nation to retrieve material directly from an asteroid, following similar achievements by Japan and the United States.

Extracting samples from Kamo'oalewa presents formidable obstacles for the Chinese mission.

Unlike the loosely bound, pebbly asteroids from which Japan and America collected material, this quasi-moon appears to be a solid, rigid rock.

"It'll be the first time we visited something like that," said Andy Rivkin, a planetary scientist at Johns Hopkins Applied Physics Laboratory.

The asteroid's rapid spin — completing one rotation every 28 minutes — creates additional hazards for any landing attempt.

Furthermore, the spacecraft's considerable mass relative to the tiny asteroid raises concerns. Dr Raducan warned that drilling operations could potentially alter Kamo'oalewa's orbital path, given the similar scale of probe and target.