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Tidal transfer of angular momentum is expected to cause hot Jupiters to spiral into their host stars. Although the timescale for orbital decay is very uncertain, it should be faster for systems with larger and more evolved stars. Indeed, it…

Earth and Planetary Astrophysics · Physics 2015-06-16 Kevin C. Schlaufman , Joshua N. Winn

We study the orbital evolution of hot Jupiters due to the excitation and damping of tidally driven $g$-modes within solar-type host stars. Linearly resonant $g$-modes (the dynamical tide) are driven to such large amplitudes in the stellar…

Earth and Planetary Astrophysics · Physics 2016-01-13 Reed Essick , Nevin N. Weinberg

It has been known for a decade that hot stars with hot Jupiters tend to have high obliquities. Less is known about the degree of spin-orbit alignment for hot stars with other kinds of planets. Here, we re-assess the obliquities of hot…

For most hot Jupiters around main-sequence Sun-like stars, tidal torques are expected to transfer angular momentum from the planet's orbit to the star's rotation. The timescale for this process is difficult to calculate, leading to…

Earth and Planetary Astrophysics · Physics 2021-10-13 Roberto A. Tejada Arevalo , Joshua N. Winn , Kassandra R. Anderson

Hot Jupiters on extremely short-period orbits are expected to be unstable to tidal dissipation and spiral toward their host stars. That is because they transfer the angular momentum of the orbital motion through tidal dissipation into the…

We present three-dimensional atmospheric circulation models of a hypothetical "warm Jupiter" planet, for a range of possible obliquities from 0-90 degrees. We model a Jupiter-mass planet on a 10-day orbit around a Sun-like star, since this…

Earth and Planetary Astrophysics · Physics 2017-09-13 Emily Rauscher

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…

Solar and Stellar Astrophysics · Physics 2015-05-14 A. F. Lanza

When a hot Jupiter orbits a star whose effective temperature exceeds $\sim$6100 K, its orbit normal tends to be misaligned with the stellar spin axis. Cooler stars typically have smaller obliquities, which may have been damped by hot…

Earth and Planetary Astrophysics · Physics 2025-03-17 J. J. Zanazzi , Eugene Chiang

The obliquity of a star, or the angle between its spin axis and the average orbit normal of its companion planets, provides a unique constraint on that system's evolutionary history. Unlike the Solar System, where the Sun's equator is…

Earth and Planetary Astrophysics · Physics 2022-03-02 Malena Rice , Songhu Wang , Gregory Laughlin

Tidal interactions are one of the primary drivers of orbital evolution for massive planets with short orbital periods. Tidal dissipation within host stars can cause the orbits of such planets to decay. However, the mechanisms of tidal…

Earth and Planetary Astrophysics · Physics 2025-08-27 Noah Sodickson , Samuel Grunblatt

Stars with hot Jupiters have obliquities ranging from 0-180 degrees, but relatively little is known about the obliquities of stars with smaller planets. Using data from the California-Kepler Survey, we investigate the obliquities of stars…

The discovery of hot Jupiters has challenged the classical planet formation theory. Although various formation mechanisms have been proposed, the dominant channel and relative contributions remain unclear. Furthermore, hot Jupiters offer a…

Earth and Planetary Astrophysics · Physics 2025-12-25 Di-Chang Chen , Ji-Wei Xie , Ji-Lin Zhou , Fei Dai , Bo Ma , Songhu Wang , Chao Liu

Stellar spin-orbit misalignments (obliquities) in hot Jupiter systems have been extensively probed. Such obliquities may reveal clues about hot Jupiter dynamical histories. Common explanations for generating obliquities include…

Earth and Planetary Astrophysics · Physics 2018-08-01 Kassandra R. Anderson , Dong Lai

The tidal evolution of hot Jupiters may change the efficiency of transit surveys of stellar clusters. The orbital decay that hot Jupiters suffer may result in their destruction, leaving fewer transiting planets in older clusters. We…

Earth and Planetary Astrophysics · Physics 2015-05-19 John H. Debes , Brian Jackson

Transiting hot Jupiters occupy a wedge-shaped region in the mass ratio-orbital separation diagram. Its upper boundary is eroded by tidal spiral-in of massive, close-in planets and is sensitive to the stellar tidal dissipation parameter…

Earth and Planetary Astrophysics · Physics 2018-03-21 Andrew Collier Cameron , Moira Jardine

Many of the known hot Jupiters are formally unstable to tidal orbital decay. The only hot Jupiter for which orbital decay has been directly detected is WASP-12, for which transit timing measurements spanning more than a decade have revealed…

We examine the radius evolution of close-in giant planets with a planet evolution model that couples the orbital-tidal and thermal evolution. For 45 transiting systems, we compute a large grid of cooling/contraction paths forward in time,…

Earth and Planetary Astrophysics · Physics 2009-09-28 N. Miller , J. J. Fortney , B. Jackson

A significant fraction of hot Jupiters have orbital axes misaligned with their host stars' spin axes. The large stellar obliquities of these giants have long been considered potential signatures of high-eccentricity migration, which is…

Earth and Planetary Astrophysics · Physics 2025-03-06 Brandon Thomas Radzom , Jiayin Dong , Malena Rice , Xian-Yu Wang , Kyle Hixenbaugh , George Zhou , Chelsea X. Huang , Songhu Wang

The discovery of the first transiting hot Jupiters (HJs; giant planets on orbital periods shorter than $P\sim10$ days) was announced more than twenty years ago. As both ground- and space-based follow-up observations are piling up, we are…

Earth and Planetary Astrophysics · Physics 2024-06-05 P. Leonardi , V. Nascimbeni , V. Granata , L. Malavolta , L. Borsato , K. Biazzo , A. F. Lanza , S. Desidera , G. Piotto , D. Nardiello , M. Damasso , A. Cunial , L. R. Bedin

Exoplanet searches have discovered a large number of 'hot Jupiters'--high-mass planets orbiting very close to their parent stars in nearly circular orbits. A number of these planets are sufficiently massive and close-in to be significantly…

Earth and Planetary Astrophysics · Physics 2014-05-14 Michael Zhang , Kaloyan Penev