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Research PaperResearchia:202607.07047

Planetary-Mass Exosatellite Detected Around the Substellar Companion of a Star

Kevin Hoy

Abstract

Despite more than 6000 exoplanets being discovered to date, no satellite orbiting an exoplanet, an exomoon, has ever been confidently detected. While there are some candidates, they lack clear and convincing confirmation and remain controversial. Beyond the innate value of discovering new types of objects in the Universe, satellites can help give key insights into planet formation mechanisms and the dynamical evolution histories of their systems. In this work, we show strong evidence for the exi...

Submitted: July 7, 2026Subjects: Astrophysics; Space Science

Description / Details

Despite more than 6000 exoplanets being discovered to date, no satellite orbiting an exoplanet, an exomoon, has ever been confidently detected. While there are some candidates, they lack clear and convincing confirmation and remain controversial. Beyond the innate value of discovering new types of objects in the Universe, satellites can help give key insights into planet formation mechanisms and the dynamical evolution histories of their systems. In this work, we show strong evidence for the existence of satellites orbiting the directly-imaged brown dwarf companion CD-35 2722 B. We have applied radial velocity analysis, the same technique used to discover the first exoplanet around a Solar-type star, on spectra of this brown dwarf obtained with VLT/CRIRES+. We have found what appears to be the periodic signal induced by at least one orbiting satellite. This is the first time this technique has successfully produced evidence of satellites. We produce a strong detection of a satellite candidate with a minimum mass of 0.743 Jupiter masses and an orbital period of 169 days. The best-fitting model also includes a second, closer satellite with minimum mass of 0.277 Jupiter masses and a period of 87 days, although these parameters for this smaller satellite candidate are less certain. These periods would place them very near a 2:1 mean motion resonance, a phenomenon also seen in the Galilean moons of Jupiter. The discovery of these satellites will unlock many future avenues of study, including planet formation, system dynamics, and even the search for life in the Universe.


Source: arXiv:2607.05193v1 - http://arxiv.org/abs/2607.05193v1 PDF: https://arxiv.org/pdf/2607.05193v1 Original Link: http://arxiv.org/abs/2607.05193v1

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Date:
Jul 7, 2026
Topic:
Space Science
Area:
Astrophysics
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