A Case Study of Interstellar Material Delivery: {\alpha} Centauri
Abstract
Interstellar material has been discovered in our Solar System, yet its origins and details of its transport are unknown. Here we present Centauri as a case study of the delivery of interstellar material to our Solar System. Centauri is a mature triple star system that likely harbours planets and is moving towards us with the point of closest approach approximately 28,000 years in the future. Assuming a current ejection model for the system, we find that such material can reach our Solar System and may currently be present here. The material that does reach us is mostly a product of low ( km/s) ejection velocities, and the rate at which it enters our Solar System is expected to peak around the time of Centauri 's closest approach. If Centauri ejects material at a rate comparable to our own Solar System, we estimate the current number of Centauri particles larger than 100 m in diameter within our Oort Cloud to be , and during Centauri 's closest approach, this will increase by an order of magnitude. However, the observable fraction of such objects remains low as there is only a probability of that one of them is within 10 au of the Sun. A small number () meteors greater than 100 micrometers from Centauri may currently be entering Earth's atmosphere every year: this number is very sensitive to the assumed ejected mass distribution, but the flux is expected to increase as Centauri approaches.
Keywords
Cite
@article{arxiv.2502.03224,
title = {A Case Study of Interstellar Material Delivery: {\alpha} Centauri},
author = {Cole R. Gregg and Paul A. Wiegert},
journal= {arXiv preprint arXiv:2502.03224},
year = {2025}
}
Comments
Accepted for publication in PSJ (Jan 31, 2025). 15 pages, 2 tables, 9 figures (3 animations - https://www.youtube.com/playlist?list=PL8bn7jytqoQZkbnryQRmKWargaY0uKyrX )