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Giant tidal tails of helium escaping the hot Jupiter HAT-P-32 b

Zhoujian Zhang, Caroline Morley, Michael Gully-Santiago, Morgan MacLeod, Antonija Oklopčić, Jessica Luna, Quang H. Tran, Joe P. Ninan, Suvrath Mahadevan, Daniel M. Krolikowski, William D. Cochran, Brendan P. Bowler, Michael Endl, Guðmundur Stefánsson, Benjamin M. Tofflemire, Andrew Vanderburg, Gregory R. Zeimann

2023Science Advances37 citationsDOIOpen Access PDF

Abstract

Capturing planets in the act of losing their atmospheres provides rare opportunities to probe their evolution history. This analysis has been enabled by observations of the helium triplet at 10,833 angstrom, but past studies have focused on the narrow time window right around the planet's optical transit. We monitored the hot Jupiter HAT-P-32 b using high-resolution spectroscopy from the Hobby-Eberly Telescope covering the planet's full orbit. We detected helium escaping HAT-P-32 b at a 14σ significance,with extended leading and trailing tails spanning a projected length over 53 times the planet's radius. These tails are among the largest known structures associated with an exoplanet. We interpret our observations using three-dimensional hydrodynamic simulations, which predict Roche Lobe overflow with extended tails along the planet's orbital path.

Topics & Concepts

ExoplanetPlanetPhysicsJupiter (rocket family)HeliumRADIUSGas giantHot JupiterAstrophysicsAstronomyRoche lobeGiant planetPlanetary systemStarsBinary starAtomic physicsSpace ShuttleComputer securityComputer scienceStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchAstrophysics and Star Formation Studies
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