Chondrule dust rim growth: Influence of restructuring using molecular dynamics simulationsOPEN ACCESS

09/01/2025 15:03 · by karmaka · in chondrule

Chuchu Xiang, Nina Merkert, Lorin S. Matthews, Augusto Carballido, Truell W. Hyde

“We investigate the influence of disruptive collisions on chondrule rim growth, emphasizing the role of kinetic energy in determining the outcomes of these interactions. We establish a threshold of approximately 10 cm/s for the “hit-and-stick” collision regime, beyond which significant changes occur in the structure of rimmed chondrules. Our findings highlight that at low collision energies (KE <10−12 J), minimal structural alteration takes place, while higher energies (KE up to 10−10 J) lead to compaction of the rim, reducing both its thickness and porosity. Collisions with energies exceeding 10−8 J result in the complete disruption of the rim, with particles being expelled from it. These results are correlated with the turbulence levels within the disk, as kinetic energy scales with the relative velocities of colliding particles. Leveraging machine learning models trained on our collision data, we predict changes in rim characteristics and employ these predictions in a Monte Carlo simulation to explore rim growth dynamics. Our simulations reveal that rim development is sustained in low-turbulence environments (α≤10−5), while intermediate turbulence levels (α = 10−3 to 10−4) lead to erosion, preventing further rim accumulation in high-turbulence contexts. “