Exocometary physics: material release and tails
Abstract
Despite decades of observations, the physical processes governing mass loss from small bodies beyond our Solar System remain poorly constrained. These exocomets are often treated as analogs of Solar System comet, yet the stellar environments they inhabit spans a wide range in terms of luminosity, stellar winds, and evolutionary stage, leading to potentially very diverse physical behaviors. Within our Solar System, small bodies lose material through a range of mechanisms, including sublimation, desorption, impacts, and/or sputtering. Once released, the composition and dynamics of the ejecta are then altered by additional processes, such as dust sublimation, ionization, and radiation pressure. In extrasolar systems, these mechanisms unfold under vastly different radiative and plasma conditions, leading to a rich diversity of mass-loss pathways and observable signatures. This work reviews our understanding of the mechanisms driving mass loss from small bodies and the subsequent evolution of ejecta in diverse stellar environments. We compare the physical and chemical mechanisms that drive gas and dust production, and investigate how they scale with stellar luminosity, temperature, and activity. We then examine the processes that modify the composition of the ejecta (e.g., dust sublimation, dissociation, or ionisation) and its dynamics (e.g., radiation pressure or stellar winds). To illustrate how these processes vary across different stellar environments, we use four well-studied planetary systems as case studies: the Sun, Pictoris, AU Microscopii, and WD 1145+017. By exploring how cometary tails behave under such diverse conditions, this work provides a physical framework for interpreting exocometary activity and sheds light on why A-type stars, such as the famous Pictoris, are over-represented in the population of exocomet-hosting stars.
Keywords
Cite
@article{arxiv.2602.22180,
title = {Exocometary physics: material release and tails},
author = {Théo Vrignaud and Dennis Bodewits and Jake Hanlon and Matthew M. Knight and Tim D. Pearce and Darryl Z. Seligman and Dimitri Veras and Geraint H. Jones},
journal= {arXiv preprint arXiv:2602.22180},
year = {2026}
}
Comments
Accepted for publication in Space Science Reviews. Chapter written for the the workshop 'Exocomets: Bridging our Understanding of Minor Bodies in Solar and Exoplanetary Systems' (July 2024), at the International Space Science Insitute (ISSI), Bern