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相关论文: Hot Jupiters in binary star systems

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Gas giant planets orbiting within 0.1 AU of their host stars, unlikely to have formed in situ, are evidence for planetary migration. It is debated whether the typical hot Jupiter smoothly migrated inward from its formation location through…

地球与行星天体物理 · 物理学 2015-01-13 Rebekah I. Dawson , Ruth A. Murray-Clay , John Asher Johnson

Exoplanets show a pile-up of Jupiter-size planets in orbits with a 3-day period. A fraction of these hot Jupiters have retrograde orbits with respect to the parent star's rotation. To explain these observations we performed a series of…

地球与行星天体物理 · 物理学 2015-05-30 C. Beauge , D. Nesvorny

Hot Jupiters (HJs) are giant planets with orbital periods shorter than $10$ days, found around $\sim 0.5$-$1\%$ of Sun-like stars. Their origins remain debated despite decades of study. The high prevalence of stellar companions, the…

地球与行星天体物理 · 物理学 2025-12-17 Evgeni Grishin , Jet Winter , Jaime A. Alvarado-Montes

At least two arguments suggest that the orbits of a large fraction of binary stars and extrasolar planets shrank by 1-2 orders of magnitude after formation: (i) the physical radius of a star shrinks by a large factor from birth to the main…

天体物理学 · 物理学 2011-03-04 Daniel Fabrycky , Scott Tremaine

An important class of formation theories for hot Jupiters involves the excitation of extreme orbital eccentricity (e=0.99 or even larger) followed by tidal dissipation at periastron passage that eventually circularizes the planetary orbit…

地球与行星天体物理 · 物理学 2015-05-30 Aristotle Socrates , Boaz Katz , Subo Dong , Scott Tremaine

Hot Jupiters (HJs) are Jupiter-like planets that reside very closely to their host star, within $\sim 0.1\,\mathrm{AU}$. Their formation is not well understood. It is generally believed that they cannot have formed in situ, implying that…

地球与行星天体物理 · 物理学 2016-12-16 Adrian S. Hamers , Fabio Antonini , Yoram Lithwick , Hagai B. Perets , Simon F. Portegies Zwart

Giant planets orbiting main-sequence stars closer than 0.1 AU are called hot Jupiters. They interact with their stars affecting their angular momentum. Recent observations provide suggestive evidence of excess angular momentum in stars with…

太阳与恒星天体物理 · 物理学 2015-05-14 A. F. Lanza

It is well accepted that 'hot Jupiters' did not form in situ, as the temperature in the protoplanetary disc at the radius at which they now orbit would have been too high for planet formation to have occurred. These planets, instead, form…

地球与行星天体物理 · 物理学 2015-06-05 W. K. M. Rice , J. Veljanoski , A. Collier Cameron

It has been suggested that the occurrence rate of hot Jupiters (HJs) in open clusters might reach several per cent, significantly higher than that of the field ($\sim$ a per cent). In a stellar cluster, when a planetary system scatters with…

地球与行星天体物理 · 物理学 2022-11-30 Daohai Li , Alexander J. Mustill , Melvyn B. Davies , Yan-Xiang Gong

Stellar companions can influence the formation and evolution of planetary systems, but there are currently few observational constraints on the properties of planet-hosting binary star systems. We search for stellar companions around 77…

Hot Jupiters (HJs) are short-period giant planets that are observed around ~ 1% of solar-type field stars. One possible formation scenario for HJs is high-eccentricity (high-e) migration, in which the planet forms at much larger radii, is…

地球与行星天体物理 · 物理学 2017-12-13 Adrian S. Hamers , Scott Tremaine

We use numerical simulations to model the migration of massive planets at small radii and compare the results with the known properties of 'hot Jupiters' (extrasolar planets with semi-major axes a < 0.1 AU). For planet masses Mp sin i > 0.5…

天体物理学 · 物理学 2009-11-13 W. K. M. Rice , P. J. Armitage , D. F. Hogg

Hot Jupiters are giant Jupiter-like exoplanets that orbit 100x closer to their host stars than Jupiter does to the Sun. These planets presumably form in the outer part of the primordial disc from which both the central star and surrounding…

太阳与恒星天体物理 · 物理学 2016-06-21 JF Donati , C Moutou , L Malo , C Baruteau , L Yu , E Hebrard , G Hussain , S Alencar , F Menard , J Bouvier , P Petit , M Takami , R Doyon , A Collier Cameron

Most warm Jupiters (gas-giant planets with $0.1~{\rm AU}\lesssim a \lesssim1$ AU) have pericenter distances that are too large for significant orbital migration by tidal friction. We study the possibility that the warm Jupiters are…

地球与行星天体物理 · 物理学 2016-10-03 Cristobal Petrovich , Scott Tremaine

We study the possibility that hot Jupiters are formed through the secular gravitational interactions between two planets in eccentric orbits with relatively low mutual inclinations ($\lesssim20^\circ$) and friction due to tides raised on…

地球与行星天体物理 · 物理学 2015-07-17 Cristobal Petrovich

About 25 per cent of `hot Jupiters' (extrasolar Jovian-mass planets with close-in orbits) are actually orbiting counter to the spin direction of the star. Perturbations from a distant binary star companion can produce high inclinations, but…

地球与行星天体物理 · 物理学 2015-05-20 Smadar Naoz , Will M. Farr , Yoram Lithwick , Frederic A. Rasio , Jean Teyssandier

We study the steady-state orbital distributions of giant planets migrating through the combination of the Kozai-Lidov (KL) mechanism due to a stellar companion and friction due to tides raised on the planet by the host star. We run a large…

地球与行星天体物理 · 物理学 2015-01-15 Cristobal Petrovich

Studying the relative orientations of the orbits of exoplanets and wide-orbiting binary companions (semimajor axis greater than 100 AU) can shed light on how planets form and evolve in binary systems. Previous observations by multiple…

Hot Jupiters are giant planets on orbits a few hundredths of an AU. They do not share their system with low-mass close-in planets, despite these latter being exceedingly common. Two migration channels for hot Jupiters have been proposed:…

地球与行星天体物理 · 物理学 2015-08-06 Alexander J. Mustill , Melvyn B. Davies , Anders Johansen

A new mechanism is proposed to account for the formation of retrograde hot Jupiter in coplanar star-planet system via close encounter between a Jupiter mass planet and a brown dwarf mass planet. After long timescale scattering between…

地球与行星天体物理 · 物理学 2024-10-23 Wenshuai Liu
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