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Related papers: Boulders on Mercury

200 papers

We have examined the fate of impact ejecta liberated from the surface of Mercury due to impacts by comets or asteroids, in order to study (1) meteorite transfer to Earth, and (2) re-accumulation of an expelled mantle in giant-impact…

Astrophysics · Physics 2015-05-13 B. Gladman , J. Coffey

Mercury, due to its close location to the Sun, is surrounded by an environment whose conditions may be considered as "extreme" in the entire Solar System. Both solar wind and radiation are stronger with respect to other Solar System bodies,…

Earth and Planetary Astrophysics · Physics 2015-06-19 Stefano Orsini , Valeria Mangano , Alessandro Mura , Diego Turrini , Stefano Massetti , Anna Milillo , Christina Plainaki

It is known that most of the craters on the surface of the Moon were created by the collision of minor bodies of the Solar System. Main Belt Asteroids, which can approach the terrestrial planets as a consequence of different types of…

Earth and Planetary Astrophysics · Physics 2010-04-12 Elisa Maria Alessi , Gerard Gómez , Josep J. Masdemont

The Earth, Venus, Mars, and some extrasolar terrestrial planets have a mass and radius that is consistent with a mass fraction of about 30% metallic core and 70% silicate mantle. At the inner frontier of the solar system, Mercury has a…

Mercury's core mass fraction (CMF) is ~0.7, more than double that of the other rocky planets in the solar system, which have CMFs of ~0.3. The origin of Mercury's large, iron-rich core remains unknown. Adding to this mystery, an elusive…

Earth and Planetary Astrophysics · Physics 2026-02-17 Haniyeh Tajer , Ji Wang , Anna C. Childs , Noah Ferich , Tiger Lu , Hanno Rein

Mercury has an unusually large metal core comprising ~70% of its mass comparing to all other terrestrial planets in the solar system. Giant impacts can remove a significant fraction of the silicate mantle of a chondritic proto-Mercury and…

Earth and Planetary Astrophysics · Physics 2020-01-08 Hongping Deng

Impact bombardment on Mercury in the solar system late accretion phase (ca. 4.4 to 3.8 Ga) caused considerable mechanical, chemical and thermal reworking of its silicate reservoirs (crust and mantle). Depending on the frequency, size and…

Earth and Planetary Astrophysics · Physics 2017-12-20 Stephen J. Mojzsis , Oleg Abramov , Elizabeth A. Frank , Ramon Brasser

Time-limited space missions may miss rare occurrences of very dense clouds of lunar dust. At the same time, the information provided by the Earth-based monitoring of the Moon during at least the last three centuries still remains unused. In…

Space Physics · Physics 2025-01-29 Oleksiy V. Arkhypov , Maxim L. Khodachenko

Small-crater counts on Mars light-toned sedimentary rock are often inconsistent with any isochron; these data are usually plotted then ignored. We show (using an 18-HiRISE-image, >10^4 crater dataset) that these non-isochron crater counts…

Earth and Planetary Astrophysics · Physics 2017-02-22 Edwin S. Kite , David P. Mayer

High resolution images of Mercury's surface, from the MESSENGER spacecraft, reveal many bright deposits associated with irregular, shallow, rimless depressions whose origins were attributed to volatile-related activity, but absent…

General Physics · Physics 2012-06-25 J. Marvin Herndon

In spite of substantial advancements in simulating planet formation, the planet Mercury's diminutive mass, isolated orbit, and the absence of planets with shorter orbital periods in the solar system continue to befuddle numerical accretion…

Earth and Planetary Astrophysics · Physics 2021-12-22 Matthew S. Clement , Sean N. Raymond , John E. Chambers

This paper presents the abundances and the size-frequency distributions (SFD) of the ejected boulders surrounding the Linne crater, located on the Moon's Mare Serenitatis basin. By means of Lunar Reconnaissance Orbiter Camera…

Mercury is notoriously difficult to form in solar system simulations, due to its small mass and iron-rich composition. Smooth particle hydrodynamics simulations of collisions have found that a Mercury-like body could be formed by one or…

Earth and Planetary Astrophysics · Physics 2024-04-29 Jennifer Scora , Diana Valencia , Alessandro Morbidelli , Seth Jacobson

Mars' sedimentary rocks record Gyrs of environmental change. New data enable the first global analysis of paleo-environment relevant physical properties of these rocks, including layer thickness and accumulation rate. We find that layer…

Earth and Planetary Astrophysics · Physics 2025-03-04 Madison L. Turner , Sabrina Y. Khan , Kevin W. Lewis , Axel Noblet , Edwin S. Kite

Planetary impact events eject large volumes of surface material. Crater excavation processes are difficult to study, and in particular the details of individual ejecta fragments are not well understood. A related, enduring issue in…

Earth and Planetary Astrophysics · Physics 2020-08-25 Kelsi N. Singer , Bradley L. Jolliff , William B. McKinnon

The classical scenario of terrestrial planet formation is characterized by a phase of giant impacts among Moon-to-Mars mass planetary embryos. While the classic model and its adaptations have produced adequate analogs of the outer three…

Earth and Planetary Astrophysics · Physics 2022-08-17 P. Franco , A. Izidoro , O. C. Winter , K. S. Torres , A. Amarante

An ancient Venusian rock could constrain that planet's history, and reveal the past existence of oceans. Such samples may persist on the Moon, which lacks an atmosphere and significant geological activity. We demonstrate that if Venus'…

Earth and Planetary Astrophysics · Physics 2020-10-07 Samuel H. C. Cabot , Gregory Laughlin

The bulk density of a planet, as measured by mass and radius, is a result of planet structure and composition. Relative proportions of iron core, rocky mantle, and gaseous envelopes are degenerate for a given density. This degeneracy is…

Earth and Planetary Astrophysics · Physics 2021-06-01 J. G. Schulze , Ji Wang , J. A. Johnson , B. S. Gaudi , C. T. Unterborn , W. R. Panero

MESSENGER magnetometer data show that Mercury's magnetic field is not only exceptionally weak but also has a unique geometry. The internal field resembles an axial dipole that is offset to the North by 20% of the planetary radius. This…

Earth and Planetary Astrophysics · Physics 2017-01-19 Johannes Wicht , Daniel Heyner

Most of Mars' ancient sedimentary rocks by volume are in wind-eroded sedimentary mounds, but the connections between mound form and wind erosion are unclear. We perform mesoscale simulations of different crater and mound morphologies to…

Earth and Planetary Astrophysics · Physics 2018-01-15 Liam J. Steele , Edwin S. Kite , Timothy I. Michaels