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Related papers: Planets on the Edge

200 papers

The discovery of Jupiter-mass planets in close orbits about their parent stars has challenged models of planet formation. Recent observations have shown that a number of these planets have highly inclined, sometimes retrograde orbits about…

Earth and Planetary Astrophysics · Physics 2015-05-20 James Guillochon , Enrico Ramirez-Ruiz , Douglas N. C. Lin

The orbits of many observed hot Jupiters are decaying rapidly due to tidal interaction, eventually reaching the Roche limit. We analytically study the ensuing coupled mass loss and orbital evolution during the Roche-lobe overflow and find…

Earth and Planetary Astrophysics · Physics 2017-05-15 Sivan Ginzburg , Re'em Sari

Many exoplanets have now been detected in orbits with ultra-short periods, very close to the Roche limit. Building upon our previous work, we study the possibility that mass loss through Roche lobe overflow (RLO) may affect the evolution of…

Earth and Planetary Astrophysics · Physics 2015-11-11 Francesca Valsecchi , Saul Rappaport , Frederic A. Rasio , Pablo Marchant , Leslie A. Rogers

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

Recent analyses have revealed a mystery. The orbital period of the highly inflated hot Jupiter, WASP-12b, is decreasing rapidly. The rate of inspiral, however, is too fast to be explained by either eccentricity tides or equilibrium stellar…

Earth and Planetary Astrophysics · Physics 2018-12-19 Sarah Millholland , Gregory Laughlin

Tidal interactions shape the evolution of close-in giant planets and internal gravity-wave breaking offers an efficient pathway for dynamical-tide dissipation, although its population-wide impact remains poorly constrained. We aim to…

Earth and Planetary Astrophysics · Physics 2026-03-31 J. Golonka , G. Maciejewski

Theoretical calculations and some indirect observations show that massive exoplanets on tight orbits must decay due to tidal dissipation within their host stars. This orbital evolution could be observationally accessible through precise…

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…

Earth and Planetary Astrophysics · Physics 2015-06-05 W. K. M. Rice , J. Veljanoski , A. Collier Cameron

The close proximity of short period hot-Jupiters to their parent star means they are subject to extreme tidal forces. This has a profound effect on their structure and, as a result, density measurements that assume that the planet is…

Earth and Planetary Astrophysics · Physics 2014-06-24 John Burton , Christopher Watson , Alan Fitzsimmons , Don Pollacco , Victoria Moulds , Stuart Littlefair , Peter Wheatley

Ultra-hot Jupiters are likely doomed by tidal forces to undergo orbital decay and eventual disruption by their stars, but the timescale over which this process unfolds is unknown. We present results from a long-term project to monitor…

We study transits of several ``hot Jupiter'' systems - including WASP-12 b, WASP-43 b, WASP-103 b, HAT-P-23 b, KELT-16 b, WD 1856+534 b, and WTS-2 b - with the goal of detecting tidal orbital decay and extending the baselines of transit…

We study the possibility of tidal dissipation in the solid cores of giant planets and its implication for the formation of hot Jupiters through high-eccentricity migration. We present a general framework by which the tidal evolution of…

Earth and Planetary Astrophysics · Physics 2013-12-25 Natalia I Storch , Dong Lai

Many of the known extrasolar planets are ``hot Jupiters,'' giant planets with orbital periods of just a few days. We use the observed distribution of hot Jupiters to constrain the location of the ``inner edge'' and planet migration theory.…

Astrophysics · Physics 2007-05-23 Eric B. Ford , Frederic A. Rasio

Hot stars with hot Jupiters have a wide range of obliquities, while cool stars with hot Jupiters tend to have low obliquities. An enticing explanation for this pattern is tidal realignment of the cool host stars, although this explanation…

Earth and Planetary Astrophysics · Physics 2021-06-23 Kassandra R. Anderson , Joshua N. Winn , Kaloyan Penev

The radii of some transiting extrasolar giant planets are larger than would be expected by the standard theory. We address this puzzle with the model of coupled radius-orbit tidal evolution developed by \citet{Ibgui_and_Burrows_2009}. The…

Earth and Planetary Astrophysics · Physics 2011-01-17 Laurent Ibgui , David S. Spiegel , Adam Burrows

Planets that form around stars born in dense stellar environments are subject to dynamical perturbations from other stars in the system. These perturbations will strip outer planets, forming a population of free-floating planets, some of…

Astrophysics · Physics 2007-05-23 B. Scott Gaudi

The first discovered extrasolar worlds -- giant, ``hot Jupiter'' planets on short-period orbits -- came as a surprise to solar-system-centric models of planet formation, prompting the development of new theories for planetary system…

Earth and Planetary Astrophysics · Physics 2023-03-29 Dong-Hong Wu , Malena Rice , Songhu Wang

Orbital dynamics provide valuable insights into the evolution and diversity of exoplanetary systems. Currently, only one hot Jupiter, WASP-12b, is confirmed to have a decaying orbit. Another, WASP-4b, exhibits hints of a changing orbital…

Earth and Planetary Astrophysics · Physics 2022-05-25 Jake D. Turner , Laura Flagg , Andrew Ridden-Harper , Ray Jayawardhana

WASP-4 b is a hot Jupiter exhibiting a decreasing orbital period, prompting investigations into potential mechanisms driving its evolution. We analyzed 173 transit light curves, including 37 new observations, and derived mid-transit timings…

After finding more planets than expected at the shortest period, there has been an effort to explain their numbers by weak tidal friction. However, we find that the strength of tidal dissipation that would produce the occurence distribution…

Earth and Planetary Astrophysics · Physics 2012-11-12 Stuart F. Taylor