New Paradigms For Asteroid Formation

TL;DR

This paper reviews new models of asteroid formation that challenge traditional ideas, emphasizing gravitational collapse of small particles organized in dense filaments and clusters within turbulent gas, and compares these models with observed asteroid properties.

Contribution

It introduces and critically evaluates new paradigms for asteroid formation, focusing on gravitational collapse and particle concentration mechanisms in turbulent gas environments.

Findings

Asteroids can form directly from gravitational collapse of dense particle filaments.

Streaming instability enhances particle concentration, reducing radial drift.

Chondrules are primary building blocks and are incorporated via layered accretion.

Abstract

Asteroids and meteorites provide key evidence on the formation of planetesimals in the Solar System. Asteroids are traditionally thought to form in a bottom-up process by coagulation within a population of initially km-scale planetesimals. However, new models challenge this idea by demonstrating that asteroids of sizes from 100 to 1000 km can form directly from the gravitational collapse of small particles which have organised themselves in dense filaments and clusters in the turbulent gas. Particles concentrate passively between eddies down to the smallest scales of the turbulent gas flow and inside large-scale pressure bumps and vortices. The streaming instability causes particles to take an active role in the concentration, by piling up in dense filaments whose friction on the gas reduces the radial drift compared to that of isolated particles. In this chapter we review new paradigms for asteroid formation and compare critically against the observed properties of asteroids as well as constraints from meteorites. Chondrules of typical sizes from 0.1 to 1 mm are ubiquitous in primitive meteorites and likely represent the primary building blocks of asteroids. Chondrule-sized particles are nevertheless tightly coupled to the gas via friction and are therefore hard to concentrate in large amounts in the turbulent gas. We review recent progress on understanding the incorporation of chondrules into the asteroids, including layered accretion models where chondrules are accreted onto asteroids over millions of years. We highlight in the end ten unsolved questions in asteroid formation where we expect that progress will be made over the next decade.