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Meet Phaethon, a weird asteroid that thinks it’s a comet—new research may explain what’s going on

Meet Phaethon, a weird asteroid that thinks it's a comet—new research may explain what's going on


Credit: Unsplash/CC0 Public Domain

What’s the difference between an asteroid and a comet? A comet is basically a dirty iceball composed of rock and ice. The classic image is of a bright “star” in the night sky with a long curved tail extending into space. This is what happens when they approach the sun and start emitting gases and releasing dust. It normally continues until there’s nothing left but rock or until they fragment into dust.

Asteroids, on the other hand, are primarily just rocks. They might conjure up notions of Hans Solo steering the Millennium Falcon through an implausibly dense “asteroid field” to escape a swarm of TIE Fighters, but mostly they just quietly orbit the sun, minding their own business.

Yet these two space objects are not always as mutually exclusive as this would suggest. Let me introduce Phaethon, a “rock comet” that blurs the definitions between asteroid and comet, and let me tell you why it will be worth paying attention to this fascinating object in the coming years.

Phaethon was discovered by chance in 1983 by two astronomers at the University of Leicester, Simon Green and John Davies. They came across it orbiting the sun while analyzing images collected by a called the Infrared Astronomical Satellite (Iras). Soon after, other astronomers recognized that Phaethon is the source of the annual Geminid meteor shower—one of the brightest meteor displays in Earth’s calendar.

Every December, as our planet crosses the dusty trail left behind by Phaethon, we are treated to a brilliant spectacle as its dust grains burn up in our atmosphere. Yet Phaethon’s behavior is unlike that of any other objects responsible for a meteor shower.






Unlike typical comets that shed substantial amounts of dust when they heat up near the sun, Phaethon doesn’t seem to be releasing enough dust today to account for the Geminids. This absence of significant dust emissions generates an interesting problem.

Phaethon’s orbit brings it extremely close to the sun, much closer than Mercury, our innermost planet. At its (termed perihelion), its surface temperature reaches extremes of around 730°C.

You would expect such intense heat to strip away any volatile materials that exist on Phaethon’s surface. This should either expose fresh, unheated layers and shed huge volumes of dust and gas each time it passes close to the sun, or form a barren crust that protects the volatile-rich interior from further heating, leading to an absence of gas or dust release.

Neither of these processes seem to be occurring, however. Instead, Phaethon continues to exhibit comet-like activity, emitting gas but not an accompanying dust cloud. It’s therefore not shedding layers, so the mystery is why the same crust can still emit volatile gases each time it is heated by the sun.

Our experiment

I led newly published research in Nature Communications aimed at addressing this puzzle by simulating the intense solar heating that Phaethon experiences during its perihelion.

We used chips from a rare group of meteorites called the CM chondrites, which contain clays that are believed to be similar to Phaethon’s composition. These were heated in an oxygen-free environment multiple times, simulating the hot-cold/day-night cycles that occur on Phaethon when it is close to the sun.

The results were surprising. Unlike other volatile substances that would typically be lost after a few heating cycles, the small quantities of sulfurous gases contained in the meteorites were released slowly, over many cycles.

This suggests that even after numerous close passes by the sun, Phaethon still has enough gas to generate comet-like activity during each perihelion.

But how might this work? Our theory is that when Phaethon’s surface heats up, iron sulfide minerals held in its subsurface break down into gases, such as sulfur dioxide. However, because the surface layers of Phaethon are relatively impermeable, these gases cannot escape quickly. Instead, they accumulate beneath the surface, for example in pore spaces and cracks.

As Phaethon rotates, which takes just under four hours, day turns to night and the subsurface cools. Some of the trapped gases are able to “back-react” to form a new generation of compounds. When night turns to day again and heating restarts, these decompose and the cycle repeats.

Why this matters

These findings are not just academic but have implications for the Japanese Space Agency (Jaxa)’s Destiny+ mission, set to launch later this decade. This space probe will fly past Phaethon and study it using two multispectral cameras and a dust analyzer. It will hopefully gather particles that will provide further clues about the composition of this enigmatic object.






How Destiny+ will visit Phaethon

Either way, our research team’s theory of Phaethon’s gas-emission processes will be crucial for interpreting the data. If we are proven right, it will redefine how scientists think about solar heating as a geological process by making it relevant not only to comets but also to asteroids.

Crucially, Phaethon is not alone. There are about 95 asteroids that pass within 0.20 astronomical units (nearly 19 million miles) of the sun. Whatever we learn from Phaethon could offer insights into their behavior and long-term stability, too.

Finally, you may be wondering how all this relates to the Geminid meteor shower. Most likely, Phaethon was emitting many years ago. This would have produced the debris band that creates the Geminid shower each time the particles come into contact with Earth’s atmosphere. When we talk about gifts that keep on giving, it’s hard to think of a better example.

More information:
Martin D. Suttle et al, Rapid heating rates define the volatile emission and regolith composition of (3200) Phaethon, Nature Communications (2024). DOI: 10.1038/s41467-024-51054-w

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Meet Phaethon, a weird asteroid that thinks it’s a comet—new research may explain what’s going on (2024, September 3)
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