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Related papers: Triton and Pluto: same origin but separated at bir…

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This brief review will discuss the current knowledge on the origin and evolution of the nitrogen atmospheres of the icy bodies in the solar system, particularly of Titan, Triton and Pluto. An important tool to analyse and understand the…

Earth and Planetary Astrophysics · Physics 2020-11-03 M. Scherf , H. Lammer , N. V. Erkaev , K. E. Mandt , S. E. Thaller , B. Marty

Ocean worlds, or icy bodies in the outer solar system that have or once had subsurface liquid water oceans, are among the most compelling topics of astrobiology. Typically, confirming the existence of a subsurface ocean requires close…

Earth and Planetary Astrophysics · Physics 2023-12-13 Kathleen Mandt , Adrienn Luspay-Kuti , Olivier Mousis , Sarah E. Anderson

We propose a scenario that explains the apparent nitrogen deficiency in comets in a way consistent with the fact that the surfaces of Pluto and Triton are dominated by nitrogen-rich ice. We use a statistical thermodynamic model to…

Triton and Pluto are believed to share a common origin, both forming initially in the Kuiper Belt but Triton being later captured by Neptune. Both objects display similar sizes, densities, and atmospheric and surface ice composition, with…

Earth and Planetary Astrophysics · Physics 2024-09-04 Tanguy Bertrand , François Forget , Emmanuel Lellouch

The formation mechanisms of the ice giants Uranus and Neptune, and the origin of their elemental and isotopic compositions, have long been debated. The density of solids in the outer protosolar nebula is too low to explain their formation,…

Earth and Planetary Astrophysics · Physics 2015-06-22 M. Ali-Dib , O. Mousis , J. -M. Petit , J. I. Lunine

In this chapter we review the astrophysical origins of Earth's carbon, starting from the products of the Big Bang and culminating with the Earth's formation. We review the measured compositions of different primitive objects including…

Earth and Planetary Astrophysics · Physics 2012-11-14 Bernard Marty , Conel M. O'D. Alexander , Sean N. Raymond

Conditions in the protosolar nebula have left their mark in the composition of cometary volatiles, thought to be some of the most pristine material in the solar system. Cometary compositions represent the end point of processing that began…

This study, placed in the context of the preparation for the Uranus Orbiter Probe mission, aims to predict the bulk volatile compositions of Uranus and Neptune. Using a protoplanetary disk model, it examines the evolution of trace species…

The presence of N2 in the surface environment of Pluto is critical in creating Pluto's richness of features and processes. Here, we propose that the nitrogen atoms in the N2 observed on Pluto were accreted in that chemical form during the…

Earth and Planetary Astrophysics · Physics 2018-05-29 Christopher R. Glein , J. Hunter Waite

If Jupiter and the Sun both formed directly from the same well-mixed proto-solar nebula, then their atmospheric compositions should be similar. However, direct sampling of Jupiter's troposphere indicates that it is enriched in elements such…

Earth and Planetary Astrophysics · Physics 2011-12-15 Henry Throop , John Bally

Earth and Titan are two planetary bodies formed far from each other. Nevertheless the chemical composition of their atmospheres exhibits common indications of being produced by the accretion, plus ulterior in-situ processing of cometary…

Earth and Planetary Astrophysics · Physics 2015-05-27 Josep M. Trigo-Rodriguez , F. Javier Martin-Torres

Saturn formed beyond the snow line in the primordial solar nebula that made it possible for it to accrete a large mass. Disk instability and core accretion models have been proposed for Saturn's formation, but core accretion is favored on…

Earth and Planetary Astrophysics · Physics 2016-10-05 Sushil K. Atreya , Aurelien Crida , Tristan Guillot , Jonathan I. Lunine , Nikku Madhusudhan , Olivier Mousis

Comets hold answers to mysteries of the Solar System by recording presolar history, the initial states of planet formation and prebiotic organics and volatiles to the early Earth. Analysis of returned samples from a comet nucleus will…

Understanding the origin of life-essential volatiles like N in the Solar System and beyond is critical to evaluate the potential habitability of rocky planets. Whether the inner Solar System planets accreted these volatiles from their…

Earth and Planetary Astrophysics · Physics 2021-05-13 Damanveer S. Grewal , Rajdeep Dasgupta , Bernard Marty

Triton is the largest moon of the Neptune system and possesses a thin nitrogen atmosphere with trace amounts of carbon monoxide and methane, making it of similar composition to that of the dwarf planet Pluto. Like Pluto and Saturn's moon…

The origin of the highly eccentric, inclined, and resonance-locked orbit of Pluto has long been a puzzle. A possible explanation has been proposed recently [Malhotra, R., {\it Nature} 365:819-21 (1993)] which suggests that these…

Astrophysics · Physics 2009-10-28 Renu Malhotra

Geochemical and astronomical evidence demonstrate that planet formation occurred in two spatially and temporally separated reservoirs. The origin of this dichotomy is unknown. We use numerical models to investigate how the evolution of the…

Earth and Planetary Astrophysics · Physics 2021-01-22 Tim Lichtenberg , Joanna Drazkowska , Maria Schönbächler , Gregor J. Golabek , Thomas O. Hands

Clouds and hazes are abundant in the thin and cold atmospheres of Triton and Pluto, where they are thought to be produced by interactions between atmospheric gases and ultraviolet photons from the Sun and those scattered by the local…

Earth and Planetary Astrophysics · Physics 2024-11-20 Peter Gao , Kazumasa Ohno

Observations of comets and asteroids show that the Solar Nebula that spawned our planetary system was rich in water and organic molecules. Bombardment brought these organics to the young Earth's surface, seeding its early chemistry. Unlike…

Astrophysics of Galaxies · Physics 2015-06-03 Karin I. Oberg , Viviana V. Guzman , Kenji Furuya , Chunhua Qi , Yuri Aikawa , Sean M. Andrews , Ryan Loomis , David J. Wilner

The goal of this chapter is to review hypotheses for the origin of the Pluto system in light of observational constraints that have been considerably refined over the 85-year interval between the discovery of Pluto and its exploration by…

Earth and Planetary Astrophysics · Physics 2021-07-20 Robin M. Canup , Kaitlin M. Kratter , Marc Neveu
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