Star Planet Interactions
摘要
Star-planet interactions (SPIs) describe the continuous exchange of energy, momentum, and mass between exoplanets and their host stars through radiative, tidal, magnetic, and particle-driven processes. Together, these interactions shape the structure, evolution, and observable properties of exoplanetary systems. In this review, we bring together current theoretical and observational understanding of SPIs, highlighting how stellar radiation, winds, and magnetic activity influence planetary atmospheres, interiors, and orbital evolution, while using the Solar System as a valuable reference for interpreting these processes. High-energy stellar radiation, particularly in the far- and extreme-ultraviolet and X-ray bands, drives atmospheric heating, photochemistry, ionisation, and escape. These effects are further influenced by stellar winds and magnetic interactions, which can either protect planetary atmospheres or accelerate their loss over time. Tidal interactions redistribute energy and angular momentum, producing internal heating and driving orbital migration and circularisation. Magnetic star-planet coupling provides additional pathways for energy transfer through reconnection and current systems, potentially enhancing atmospheric escape, heating planetary ionospheres and interiors, and generating observable signatures such as radio emission and enhanced stellar activity. We discuss how these processes work together, emphasising that their long-term impact depends on stellar evolution, planetary properties, atmospheric structure, and magnetic field strength. By presenting radiative, tidal, and magnetic interactions within a unified framework, this review highlights the physical mechanisms that shape planetary environments and identifies the key observational signatures that will complement future studies of exoplanet evolution and habitability.
引用
@article{arxiv.2607.03874,
title = {Star Planet Interactions},
author = {Arghyadeep Paul and Kristina Kislyakova and Manuel Güdel and Rim Fares and Judy Chebly and Sergio Joya and Miljenko Čemeljić and Katja Poppenhäger and Julian Alvarado-Gomez and Silva Järvinen and Cesar Bertucci and Dibyendu Nandy and Antonio García Muñoz and Antoine Strugarek and Mayank Narang and Shyama Narendranath},
journal= {arXiv preprint arXiv:2607.03874},
year = {2026}
}
备注
Submitted to Space Science Reviews