Discovering and Characterising Exoplanets and Ultracool Dwarfs with the Square Kilometre Array

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Discovering and Characterising Exoplanets and Ultracool Dwarfs with the Square Kilometre Array

Authors

Robert D. Kavanagh, Juan B. Climent, Philippe Zarka, Joseph R. Callingham, Yuka Fujii, Corentin K. Louis, Laurent Lamy, Mayank Narang, J. Sebastian Pineda, Harish K. Vedantham, Sanne Bloot, Jean-Mathias Grie, Jose Carlos Guirado, Simranpreet Kaur, T. Joseph W. Lazio, Miguel Pérez-Torres, Alice Zurlo

Abstract

The majority of the Solar System planets are sources of bright radio emission, driven by energetic electrons trapped within each planet's magnetic field. Detection of this emission from exoplanets provides a unique opportunity to characterise their magnetic fields, which is key to determining the atmospheric evolution of exoplanets. However, a conclusive detection of radio emission from an exoplanet remains at large, primarily due to a lack of sensitivity at low radio frequencies. On the other hand, planet-like radio signatures have been detected on objects called ultracool dwarfs (UCDs) for over two decades. UCDs are of comparable sizes to Jupiter, but are more massive. They also possess similar interior structures to Jupiter, the region where magnetic fields are generated. Therefore, UCDs are ideal targets to study to advance our understanding of how magnetic fields manifest at planetary scales. In this Chapter, we outline the revolutionary role that the Square Kilometre Array will play in the study of exoplanets and UCDs. We anticipate that it will facilitate the first detection of radio emission from giant exoplanets with strong magnetic fields, and will deliver thousands of detections of UCDs within a few hundred parsecs. Combined with very long baseline interferometry, we also expect that astrometric monitoring will enable the detection of planets of a few Earth masses orbiting nearby radio-emitting UCDs. These findings will open a new window into how planets form and evolve in extrasolar systems.

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