A close-in giant planet escapes engulfment by its star.
Marc HonDaniel HuberNicholas Z RuiJames FullerDimitri VerasJames S KuszlewiczOleg KochukhovAmalie StokholmJakob Lysgaard RørstedMutlu YıldızZeynep Çelik OrhanSibel ÖrtelChen JiangDaniel R HeyHoward IsaacsonJingwen ZhangMathieu VrardKeivan G StassunBenjamin J ShappeeJamie TayarZachary R ClaytorCorey BeardTimothy R BeddingCasey BrinkmanTiago L CampanteWilliam J ChaplinAshley ChontosSteven GiacaloneRae HolcombAndrew W HowardJack LubinMason MacDougallBenjamin T MontetJoseph M A MurphyJoel OngDaria PidhorodetskaAlex S PolanskiMalena RiceDennis StelloDakotah TylerJudah Van ZandtLauren M WeissPublished in: Nature (2023)
When main-sequence stars expand into red giants, they are expected to engulf close-in planets 1-5 . Until now, the absence of planets with short orbital periods around post-expansion, core-helium-burning red giants 6-8 has been interpreted as evidence that short-period planets around Sun-like stars do not survive the giant expansion phase of their host stars 9 . Here we present the discovery that the giant planet 8 Ursae Minoris b 10 orbits a core-helium-burning red giant. At a distance of only 0.5 AU from its host star, the planet would have been engulfed by its host star, which is predicted by standard single-star evolution to have previously expanded to a radius of 0.7 AU. Given the brief lifetime of helium-burning giants, the nearly circular orbit of the planet is challenging to reconcile with scenarios in which the planet survives by having a distant orbit initially. Instead, the planet may have avoided engulfment through a stellar merger that either altered the evolution of the host star or produced 8 Ursae Minoris b as a second-generation planet 11 . This system shows that core-helium-burning red giants can harbour close planets and provides evidence for the role of non-canonical stellar evolution in the extended survival of late-stage exoplanetary systems.