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The Early Solar System was Total Mayhem

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There’s no question that young solar systems are chaotic places. Cascading collisions defined our young Solar System as rocks, boulders, and planetesimals repeatedly collided. A new study based on chunks of asteroids that crashed into Earth puts a timeline to some of that chaos.

Astronomers know that asteroids have remained essentially unchanged since their formation in the early Solar System billions of years ago. They’re like rocky time capsules that contain scientific clues from that important epoch because differentiated asteroids had mantles that protected their interiors from space weathering.

But not all asteroids remained whole. Over time, repeated collisions stripped the insulating mantles away from their iron cores and then shattered some of those cores into pieces. Some of those pieces fell to Earth. Rocks that fell from space were of great interest to people and were a valuable resource in some cases; King Tut was buried with a dagger made from an iron meteorite, and Inuit people in Greenland made tools out of an iron meteorite for centuries.

Scientists are keenly interested in iron meteorites because of the information they contain. A new study based on iron meteorites—which are fragments from the core of larger asteroids—looked at isotopes of Palladium, Silver, and Platinum. By measuring the amounts of those isotopes, the authors could more tightly constrain the timing of some events in the early Solar System.

The paper “The dissipation of the solar nebula constrained by impacts and core cooling in planetesimals” is published in Nature Astronomy. The lead author is Alison Hunt from ETH Zurich and the National Centre of Competence in Research (NCCR) PlanetS.

“Previous scientific studies showed that asteroids in the solar system have remained relatively unchanged since their formation, billions of years ago,” Hunt said. “They, therefore, are an archive in which the conditions of the early solar system are preserved.”

The ancient Egyptians and the Inuit didn’t know anything about elements, isotopes, and decay chains, but we do. We understand how different elements decay in chains into other elements, and we know how long it takes. One of those decay chains is at the heart of this work: the short-lived 107Pd–107Ag decay system. That chain has a half-life of about 6.5 million years and is used to detect the presence of short-lived nuclides from the early Solar System.

The researchers gathered samples of 18 different iron meteorites that were once parts of the iron cores of asteroids. Then they isolated the Palladium, Silver, and Platinum in them and used a mass spectrometer to measure the concentrations of different isotopes of the three elements. A particular isotope of Silver is critical in this research.

One of the iron meteorites that the researchers analyzed in their study. Image Credit: Aurelia Meister

During the first few million years of the Solar System’s history, decaying radioactive isotopes heated the metallic cores in asteroids. As they cooled and more of the isotopes decayed, an isotope of Silver (107 Ag) accumulated in the cores. The researchers measured the ratio of 107 Ag to other isotopes and determined how quickly the asteroid cores cooled and when.

This is not the first time researchers have studied asteroids and isotopes in this way. But earlier studies didn’t account for the effects of galactic cosmic rays (GCRs) on the isotope ratios. GCRs can disrupt the neutron capture process during decay and can decrease the amount of 107 Ag and 109 Ag. These new results are corrected for GCR interference by also counting Platinum isotopes.

“Our additional measurements of Platinum isotope abundances allowed us to correct the Silver isotope measurements for distortions caused by cosmic irradiation of the samples in space. So we were able to date the timing of the collisions more precisely than ever before,” Hunt reported. “And to our surprise, all the asteroidal cores we examined had been exposed almost simultaneously, within a timeframe of 7.8 to 11.7 million years after the formation of the solar system,” Hunt said.

An artist’s conception of an asteroid collision in the belt between Mars and Jupiter. Credit: NASA/JPL-Caltech

A four million-year time span is short in astronomy. During that brief period, all of the asteroids measured had their cores exposed, meaning collisions with other objects stripped away their mantles. Without the insulating mantles, the cores all cooled simultaneously. Other studies have shown that the cooling was rapid, but they couldn’t constrain the timeframe as clearly.

For the asteroids to have the isotope ratios the team found, the Solar System had to be a very chaotic place, with a period of frequent collisions that stripped the mantles from asteroids.

“Everything seems to have been smashing together at that time,” Hunt says. “And we wanted to know why,” she adds.

Why would there be a period of such chaotic collisions? There are a couple of possibilities, according to the paper.

The first possibility concerns the Solar System’s giant planets. If they migrated or were unstable somehow at that time, they could’ve reorganized the inner Solar System, disrupted small bodies like asteroids, and triggered a period of increased collisions. This scenario is called the Nice model.

The other possibility is gas drag in the solar nebula.

Artist’s impression of the Solar Nebula. Image credit: NASA

When the Sun was a protostar, it was surrounded by a cloud of gas and dust called a solar nebula, just like other stars. The disk contained the asteroids, and the planets would eventually form there too. But the disk changed in the Solar System’s first few million years.

At first, the gas was dense, which slowed down the motion of things like asteroids and planetesimals with gas drag. But as the Sun got going, it produced more solar wind and radiation. The solar nebula was still there, but the solar wind and radiation pushed on it, dissipating it. As it dissipated, it became less dense, and there was less drag on objects. Without the dampening effect of dense gas, asteroids accelerated and collided with each other more frequently.

This figure from the study shows the evolution of differentiated iron meteorite bodies in the early Solar System. At the top, the parent bodies accrete and differentiate within the first ~3 Myr after CAI formation. Then there are two competing scenarios for the period of increased collisions among asteroids. Scenario A is the gas dissipation scenario and the one that the research team thinks fits the data best. Scenario B is the Nice model, where a giant planet creates instability and causes a period of increased collisions. Image Credit: Hunt et al. 2022.

According to Hunt and her colleagues, the reduction of gas drag is responsible.

“The theory that best explained this energetic early phase of the solar system indicated that it was caused primarily by the dissipation of the so-called solar nebula,” study co-author Maria Schönbächler explained. “This solar nebula is the remainder of gas that was left over from the cosmic cloud out of which the Sun was born. For a few million years, it still orbited the young Sun until it was blown away by solar winds and radiation,” Schönbächler said.

“Our work illustrates how improvements in laboratory measurement techniques allow us to infer key processes that took place in the early solar system – like the likely time by which the solar nebula had gone. Planets like the Earth were still in the process of being born at that time. Ultimately, this can help us to better understand how our own planets were born, but also give us insights into others outside our solar system,” Schönbächler concluded.


The post The Early Solar System was Total Mayhem appeared first on Universe Today.


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