Mystery

A Nearby Supernova Almost Destroyed the Solar System Before it Could Form

Way back in time, about 4.6 billion years ago, our Sun and planets were busily forming nestled inside a cloud of gas and dust. Not far away, a supernova exploded, threatening to tear everything apart. Luckily, a filament of molecular gas protected the infant Solar System from imminent destruction.

A team of astronomers at the National Astronomical Observatory of Japan came up with this idea after examining evidence inside Solar System debris. According to astronomer Doris Arzoumanian and her team, clues to that ancient explosion and aftermath exist in meteorites. These primitive rocks date back to the earliest epochs of Solar System history. That makes them treasure troves of information about the conditions in our system’s 𝐛𝐢𝐫𝐭𝐡 cloud.

In particular, they contain what they term “an inhomogeneous concentration” of a radioactive isotope of aluminum. “Inhomogenous” means that the aluminum is not evenly distributed throughout the samples. That indicates it was more or less “injected” into the system’s 𝐛𝐢𝐫𝐭𝐡 cloud as it was forming, which implies a sudden event like a supernova. These huge stellar explosions forge the isotope aluminum-26 (26Al), found in meteorites.

The Early Solar System’s Birth Cloud

An illustration of a protoplanetary disk. The solar system formed from such a disk. Astronomers suggest this 𝐛𝐢𝐫𝐭𝐡place was protected by a larger filament of molecular gas and dust early in history. Credit: NASA/JPL-Caltech/T. Pyle (SSC)

There’s nothing left of the Solar System’s original 𝐛𝐢𝐫𝐭𝐡 cloud. But, we can find evidence for its chemical composition inside the planetesimals and other solar system debris such as comets, asteroids, and meteorites. Clearly, the infant Solar System survived the supernova shock wave and went on to form the Sun and the planets we know today. But, how to explain that, considering the presence of 26Al? That’s where the molecular filament comes into the story.

In a paper published in Astrophysical Journal Letters, the team describes cylindrical molecular filaments as the 𝐛𝐢𝐫𝐭𝐡places of Sun-like stars. Multiple filaments intersect with each other at “hubs”. Sunlike stars form along the filaments while large stars generally form at the hubs. Given the typical evolutionary ages of stars, the massive ones explode as supernovae and enrich their nearby environments with heavier elements. Those explosions can also shred starforming clouds, choking off future growth and damaging existing stars and their protoplanetary disks.

What Happened to Save Our Sun and Planets?

The team assumed that the Sun formed in one of those dense molecular gas filaments. At some point after that 𝐛𝐢𝐫𝐭𝐡 process started, a supernova exploded at a nearby filament hub. The team calculated that the blast wave would shred the dense filament in about 300,000 years.

However, the chemical evidence in the meteorites suggests that something protected the 𝐛𝐢𝐫𝐭𝐡 creche. They formed within the first 100,000 years in the Sun’s protoplanetary disk, all nestled inside the filament. The parent filament may have acted as a protective “blanket” or buffer, keeping the worst of the shock wave at bay. It also helped catch the radioactive isotopes from the supernova blast wave and channel them into the still-forming Solar System. That’s how the 26Al came to be in the meteorites.

Of course, a nearby supernova isn’t the only thing that can interrupt star formation. A phenomenon called “early H II feedback” from nearby massive stars can also disrupt stellar 𝐛𝐢𝐫𝐭𝐡places and choke off material needed for star 𝐛𝐢𝐫𝐭𝐡. However, the parent filament that protects against the shock of a supernova can also shield a 𝐛𝐢𝐫𝐭𝐡 creche from getting shredded by outflows from massive neighbors. What’s needed now is a closer examination of streamers and filaments in molecular clouds. How do they form? Also, what influence do they have on star formation itself? Clearly, they play an important role and need further observation.

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