Tiny Object Found at the Edge of the Solar System for the First Time. A Kuiper Belt Object that’s Only 2.6 km Across

The Kuiper Belt, or the Edgeworth-Kuiper Belt, is home to ancient rocks. Kuiper Belt Objects, or KBOs, are remnants of the early planet-formation days of our Solar System. Small KBOs, in the 1 km. diameter range, have been theorized about for decades, but nobody’s every found one.

Until now.

Planets form when bits of dust conglomerate into rocks, which conglomerate into boulders, which conglomerate into larger and larger objects. In our inner Solar System, we can see many of these larger rocks, or asteroids. We can study them, but they’re not the same as the distant, ancient KBOs. Asteroids in our neighbourhood have been changed by exposure to solar radiation, by collisions, and by interacting with the gravity of the planets.

But KBOs are more pristine. They’re a truer representation of the state of things in the early Solar System. That’s why finally confirming the existence of one is creating so much interest.

The Kuiper Belt was named in honor of Dutch-American astronomer Gerard Kuiper, who postulated a reservoir of icy bodies beyond Neptune. The first Kuiper Belt object was discovered in 1992. We now know of more than a thousand objects there, and it's estimated it's home to more than 100,000 asteroids and comets there over 62 miles (100 km) across. Credit: JHUAPL
The Kuiper Belt was named in honor of Dutch-American astronomer Gerard Kuiper, who postulated a reservoir of icy bodies beyond Neptune. The first Kuiper Belt object was discovered in 1992. We now know of more than a thousand objects there, and it’s estimated it’s home to more than 100,000 asteroids and comets there over 62 miles (100 km) across. Credit: JHUAPL

Scientists have predicted the existence of KBOs between 1 km and several km diameter. But they’re so far away, so tiny, and so incredibly dim that there’s just no way a telescope can spot one. But a research team led by Ko Arimatsu at the National Astronomical Observatory of Japan found a way to detect them: occultation.

In the same way that we can detect exoplanets around distant stars by watching for dips in starlight, Arimatsu and his team reasoned, we can watch distant stars and look for dips caused by a KBO in our Solar System. They started the OASES (Organized Auto-telescopes for Serendipitous Event Survey) project to do it.


“This is a real victory for little projects.”

Ko Arimatsu, National Astronomical Observatory of Japan

They placed two small (28 cm) telescopes on the roof of the Miyako open-air school on Miyako Island, Miyakojima-shi, Okinawa Prefecture, Japan, and monitored approximately 2000 stars for a total of 60 hours.

When they analyzed the 60 hours of data, the team discovered a star appearing to dim as it is occulted by a 1.3 km radius Edgeworth-Kuiper Belt Object. Their work indicates that kilometer-sized Edgeworth-Kuiper Belt Objects are more numerous than previously thought. It also supports planetary formation models where planetesimals first grow slowly into kilometer sized objects before runaway growth causes them to merge into planets.

In a press release, Arimatsu explains: “This is a real victory for little projects. Our team had less than 0.3% of the budget of large international projects. We didn’t even have enough money to build a second dome to protect our second telescope! Yet we still managed to make a discovery that is impossible for the big projects. Now that we know our system works, we will investigate the Edgeworth-Kuiper Belt in more detail. We also have our sights set on the still undiscovered Oort Cloud out beyond that.”

More detections will confirm the team’s findings, and when they do, it will fill in an observational gap in our understanding of planet formation. As the team says in their paper, “If this is a true KBO detection, this implies that planetesimals before their runaway growth phase grew into kilometre-sized objects in the primordial outer Solar System and remain as a major population in the present-day Kuiper belt.”

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