The timing and locations of formation of planetesimals — the building blocks of planets — are crucial to the understanding of planet formation. If we are to form larger planets — gas giants or terrestrial planets — we must first form planetesimals. It had been thought that planetesimals only form once a star has reached its final size, but a new study of ‘polluted’ white dwarfs suggests that planetesimals and their host stars ‘grow up’ together.
Bonsor et al. present distinct observational evidence from white dwarf planetary systems for planetesimal formation occurring during the first few hundred thousand years after cloud collapse in exoplanetary systems. Image credit: NASA / JPL-Caltech.
“We have a pretty good idea of how planets form, but one outstanding question we’ve had is when they form: does planet formation start early, when the parent star is still growing, or millions of years later?” said Dr. Amy Bonsor, a researcher with the Institute of Astronomy at the University of Cambridge.
To attempt to answer this question, Dr. Bonsor and her colleagues studied the atmospheres of white dwarfs to investigate the building blocks of planet formation.
Normally, the interiors of planets are out of reach of telescopes. But a special class of white dwarfs — known as ‘polluted’ white dwarfs — have heavy elements such as magnesium, iron, and calcium in their normally clean atmospheres.
These elements must have come from small bodies like asteroids left over from planet formation, which crashed into the white dwarfs and burned up in their atmospheres.
As a result, spectroscopic observations of polluted white dwarfs can probe the interiors of those torn-apart asteroids, giving astronomers direct insight into the conditions in which they formed.
Planet formation is believed to begin in a protoplanetary disk orbiting a young star.
According to the current leading theory on how planets form, the dust particles stick to each other, eventually forming larger and larger solid bodies.
Some of these larger bodies will continue to accrete, becoming planets, and some remain as asteroids, like those that crashed into the white dwarfs in the current study.
The authors analyzed spectroscopic observations from the atmospheres of 200 polluted white dwarfs from nearby galaxies.
According to their analysis, the mixture of elements seen in the atmospheres of these white dwarfs can only be explained if many of the original asteroids had once melted, which caused heavy iron to sink to the core while the lighter elements floated on the surface.
This process, known as differentiation, is what caused the Earth to have an iron-rich core.
“The cause of the melting can only be attributed to very short-lived radioactive elements, which existed in the earliest stages of the planetary system but decay away in just a million years,” Dr. Bonsor said.
“In other words, if these asteroids were melted by something which only exists for a very brief time at the dawn of the planetary system, then the process of planet formation must kick off very quickly.”
The study suggests that the early-formation picture is likely to be correct, meaning that Jupiter and Saturn had plenty of time to grow to their current sizes.
“Our study complements a growing consensus in the field that planet formation got going early, with the first bodies forming concurrently with the star,” Dr. Bonsor said.
“Analyses of polluted white dwarfs tell us that this radioactive melting process is a potentially ubiquitous mechanism affecting the formation of all extrasolar planets.”
“This is just the beginning — every time we find a new white dwarf, we can gather more evidence and learn more about how planets form.”
“We can trace elements like nickel and chromium and say how big an asteroid must have been when it formed its iron core. It’s amazing that we’re able to probe processes like this in exoplanetary systems.”
The study was published in the journal Nature Astronomy.
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A. Bonsor et al. Rapid formation of exoplanetesimals revealed by white dwarfs. Nat Astron, published online November 14, 2022; doi: 10.1038/s41550-022-01815-8
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