Mysteries of icy comets solved
Washington: Scientists have solved two solar system puzzles – explaining how did icy comets obtain particles that formed at high temperatures, and how did these refractory particles acquire rims with different compositions.
Carnegie’s theoretical astrophysicist Alan Boss and cosmochemist Conel Alexander are the first to model the trajectories of such particles in the unstable disk of gas and dust that formed the solar system.
They found that these refractory particles could have been processed in the hot inner disk, and then travelled out to the frigid outer regions to end up in icy comets. Their meandering trips back and forth could help explain the different compositions of their rims.
The young Sun is thought to have experienced a series of outbursts caused by the rapid infall of disk gas onto the Sun. The leading mechanism for explaining such outbursts is a phase of disk instability. The researchers modelled the trajectories of several hundred centimeter-sized melilite mineral particles during a phase of disk instability. These particles are similar to calcium-aluminum-rich inclusions (or CAIs), the refractory particles often found in well-preserved meteorites, as well as the comet Wild 2.
Their disk model assumed a marginally gravitationally unstable, fully three-dimensional disk, with a mass of about 5 percent of today’s Sun and temperatures ranging from a frigid –350 degree F (60K) in the outer regions, to a scorching 2240 degree F (1500K) near the center. Their calculations allowed the CAIs to orbit in the disk while being subjected to gas drag and the gravity of both the disk and the Sun.
The particles started orbiting in unison, but after about 20 years their trajectories started to diverge significantly. Most struck the inner boundary of the disk at 1 AU (the Earth/Sun distance), while others went to the outer boundary at 10 AU, where they could be swept up by a growing comet. About 10percent migrated back and forth in the disk before hitting one or the other boundary.
The researchers then modelled the evaporation and condensation processes that the particles would experience during their migrations and found that such particles were likely to acquire outer rims with varied isotopic compositions recently shown to characterize CAIs.
“CAIs are thought to have formed at the very beginning of the solar system. Our results show that they must have experienced remarkably complex histories as they were transported chaotically all over the disk,” remarked Alexander.
These migrations could explain the different oxygen isotopes that have been found in particles from meteorites. These are varieties of oxygen atoms with different numbers of neutrons, which point to different processing conditions for the particle rims.
Previous work by Boss had shown that oxygen isotope abundances could vary in an unstable disk by the range found in meteorites. Coupled with the new results, these models show that several puzzles may have been solved -- an unstable disk can explain both large-scale outward transport of refractory particles, as well as the peculiar rim compositions acquired during their journeys.
“It’s nice to solve two problems at once. But there are still many more puzzles about meteorites for us to work on,” said Boss.
The research has been published in Earth and Planetary Science Letters.
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