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Related papers: Tectonic Activity on Pluto After the Charon-Formin…

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Existence of subsurface oceans on the satellites of the giant planets and Trans-Neptunian objects has been predicted for some time. Oceans on icy worlds exert a considerable influence on the dynamics of the ice-ocean system and, because of…

Earth and Planetary Astrophysics · Physics 2022-02-16 Amirhossein Bagheri , Amir Khan , Frederic Deschamps , Henri Samuel , Mikhail Kruglyakov , Domenico Giardini

This study explores the gravitational interaction between Pluto and its moon Charon, which has led to their synchronous orbit, where they consistently show the same face to each other. This process is known as tidal evolution, which…

Earth and Planetary Astrophysics · Physics 2024-03-05 Yun-Yan Lee

Both Pluto and its satellite Charon have rotation rates synchronous with their orbital mean motion. This is the theoretical end point of tidal evolution where transfer of angular momentum has ceased. Here we follow Pluto's tidal evolution…

Earth and Planetary Astrophysics · Physics 2015-06-18 W. H. Cheng , Man Hoi Lee , S. J. Peale

A giant collision is believed to be at the origin of the Pluto-Charon system. As a result, the initial orbit and spins after impact may have substantially differed from those observed today. More precisely, the distance at periapse may have…

Earth and Planetary Astrophysics · Physics 2021-01-04 Alexandre C. M. Correia

The New Horizons spacecraft has found evidence for geologic activity on the surface of Pluto, including extensional tectonic deformation of its water ice bedrock (see Moore et al., 2016). One mechanism that could drive extensional tectonic…

Earth and Planetary Astrophysics · Physics 2016-08-03 Noah P. Hammond , Amy C. Barr , Edgar M. Parmentier

It is usually taken for granted that mutual synchronisation of a tidal two-body system is attained through tidal recession, assuming the reduced Hill sphere is not reached. However, synchronisation can be achieved also via tidal approach,…

Earth and Planetary Astrophysics · Physics 2026-04-21 Michael Efroimsky , Michaela Walterova , Yeva Gevorgyan , Amirhossein Bagheri , Valeri V. Makarov , Amir Khan

Moons tidally interact with their host planets and stars. A close moon is quickly synchronised by the planet, or becomes captured in a higher spin-orbit resonance. However, the planet requires much more time to significantly alter its…

Earth and Planetary Astrophysics · Physics 2025-09-15 Valeri V. Makarov , Michael Efroimsky

Pluto has been observed by the New Horizons space probe to have some relatively fresh ice on the old ices covering most of the surface. Pluto was thought to consist of only a rocky core below the ice. Here I show that Pluto can have an iron…

Earth and Planetary Astrophysics · Physics 2015-10-23 A. Aitta

Recent discoveries of several transiting planets with clearly non-zero eccentricities and some large inclinations started changing the simple picture of close-in planets having circular and well-aligned orbits. Two major scenarios to form…

Earth and Planetary Astrophysics · Physics 2015-05-19 Soko Matsumura , Stanton J. Peale , Frederic A. Rasio

The Pluto-Charon system provides a broad variety of constraints on planetary formation, composition, chemistry, and evolution. Pluto was the first body to be discovered in what is now known as the Kuiper belt, its orbit ultimately becoming…

Earth and Planetary Astrophysics · Physics 2020-12-01 William B. McKinnon , Christopher R. Glein , Tanguy Bertrand , Alyssa R. Rhoden

Pluto's system of 5 known satellites are in a puzzling orbital configuration. Each of the four small satellites are on low-eccentricity and low-inclination orbits situated near a mean motion resonance with the largest satellite Charon. The…

Earth and Planetary Astrophysics · Physics 2015-05-07 Kevin J. Walsh , Harold F. Levison

Tidal effects arise from differential and inelastic deformation of a planet by a perturbing body. The continuous action of tides modify the rotation of the planet together with its orbit until an equilibrium situation is reached. It is…

Earth and Planetary Astrophysics · Physics 2010-09-20 Alexandre C. M. Correia , Jacques Laskar

Using the Andrade-derived Sundberg-Cooper rheology, we apply several improvements to the secular tidal evolution of TRAPPIST-1e and the early history of Pluto-Charon under the simplifying assumption of homogeneous bodies. By including…

Earth and Planetary Astrophysics · Physics 2021-01-25 Joe P. Renaud , Wade G. Henning , Prabal Saxena , Marc Neveu , Amirhossein Bagheri , Avi Mandell , Terry Hurford

In 2015, the New Horizons spacecraft flew past Pluto and its moon Charon, providing the first clear look at the surface of Charon. New Horizons images revealed an ancient surface, a large, intricate canyon system, and many fractures, among…

The Pluto-Charon (PC) pair is usually thought of as a binary in the dual synchronous state, which is the endpoint of its tidal evolution. The discovery of the small circumbinary moons, Styx, Nix, Kerberos, and Hydra, placed close to the…

Earth and Planetary Astrophysics · Physics 2022-02-09 Cristian A. Giuppone , Adrián Rodríguez , Tatiana A. Michtchenko , Amaury A. de Almeida

The Pluto-Charon system has come into sharper focus following the fly by of New Horizons. We use N-body simulations to probe the unique dynamical history of this binary dwarf planet system. We follow the evolution of the debris disc that…

Earth and Planetary Astrophysics · Physics 2017-01-18 Rachel A. Smullen , Kaitlin M. Kratter

Transiting planets are generally close enough to their host stars that tides may govern their orbital and thermal evolution of these planets. We present calculations of the tidal evolution of recently discovered transiting planets and…

Astrophysics · Physics 2009-11-13 Brian Jackson , Rory Barnes , Richard Greenberg

The Pluto system was recently explored by NASA's New Horizons spacecraft, making closest approach on 14 July 2015. Pluto's surface displays diverse landforms, terrain ages, albedos, colors, and composition gradients. Evidence is found for a…

Earth and Planetary Astrophysics · Physics 2021-09-06 S. A. Stern , F. Bagenal , K. Ennico , G. R. Gladstone , W. M. Grundy , W. B. McKinnon , J. M. Moore , C. B. Olkin , J. R. Spencer , H. A. Weaver , L. A. Young , T. Andert , J. Andrews , M. Banks , B. Bauer , J. Bauman , O. S. Barnouin , P. Bedini , K. Beisser , R. A. Beyer , S. Bhaskaran , R. P. Binzel , E. Birath , M. Bird , D. J. Bogan , A. Bowman , V. J. Bray , M. Brozovic , C. Bryan , M. R. Buckley , M. W. Buie , B. J. Buratti , S. S. Bushman , A. Calloway , B. Carcich , A. F. Cheng , S. Conard , C. A. Conrad , J. C. Cook , D. P. Cruikshank , O. S. Custodio , C. M. Dalle Ore , C. Deboy , Z. J. B. Dischner , P. Dumont , A. M. Earle , H. A. Elliott , J. Ercol , C. M. Ernst , T. Finley , S. H. Flanigan , G. Fountain , M. J. Freeze , T. Greathouse , J. L. Green , Y. Guo , M. Hahn , D. P. Hamilton , S. A. Hamilton , J. Hanley , A. Harch , H. M. Hart , C. B. Hersman , A. Hill , M. E. Hill , D. P. Hinson , M. E. Holdridge , M. Horanyi , A. D. Howard , C. J. A. Howett , C. Jackman , R. A. Jacobson , D. E. Jennings , J. A. Kammer , H. K. Kang , D. E. Kaufmann , P. Kollmann , S. M. Krimigis , D. Kusnierkiewicz , T. R. Lauer , J. E. Lee , K. L. Lindstrom , I. R. Linscott , C. M. Lisse , A. W. Lunsford , V. A. Mallder , N. Martin , D. J. McComas , R. L. McNutt , D. Mehoke , T. Mehoke , E. D. Melin , M. Mutchler , D. Nelson , F. Nimmo , J. I. Nunez , A. Ocampo , W. M. Owen , M. Paetzold , B. Page , A. H. Parker , J. W. Parker , F. Pelletier , J. Peterson , N. Pinkine , M. Piquette , S. B. Porter , S. Protopapa , J. Redfern , H. J. Reitsema , D. C. Reuter , J. H. Roberts , S. J. Robbins , G. Rogers , D. Rose , K. Runyon , K. D. Retherford , M. G. Ryschkewitsch , P. Schenk , R. Schindhelm , B. Sepan , M. R. Showalter , K. N. Singer , M. Soluri , D. Stanbridge , A. J. Steffl , D. F. Strobel , T. Stryk , M. E. Summers , J. R. Szalay , M. Tapley , A. Taylor , H. Taylor , H. B. Throop , C. C. C. Tsang , G. L. Tyler , O. M. Umurhan , A. J. Verbiscer , M. H. Versteeg , M. Vincent , R. Webbert , S. Weidner , G. E. Weigle , O. L. White , K. Whittenburg , B. G. Williams , K. Williams , S. Williams , W. W. Woods , A. M. Zangari , E. Zirnstein

We consider the evolution of a binary system interacting due to tidal effects without restriction on the orientation of the orbital, and where significant, spin angular momenta, and orbital eccentricity. We work in the low tidal forcing…

Solar and Stellar Astrophysics · Physics 2020-11-11 P. B. Ivanov , J. C. B. Papaloizou
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