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相关论文: Dust Grain Orbital Behavior Around Ceres

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Radio images of protoplanetary disks demonstrate that dust grains tend to organize themselves into rings. These rings may be a consequence of dust trapping within gas pressure maxima wherein the local high dust-to-gas ratio is expected to…

地球与行星天体物理 · 物理学 2022-10-12 Eve J. Lee , J. R. Fuentes , Philip F. Hopkins

From Jan. 6, 2019 to Feb. 18, 2019, OSIRIS-REx observed asteroid (101955) Bennu ejecting 11 plumes of dust, of which part is escaping and another part is re-captured by the asteroid. The relative magnitudes of the typical forces acting on…

地球与行星天体物理 · 物理学 2020-10-21 Yu Jiang , Jürgen Schmidt

Photometry from the Helios and STEREO spacecraft revealed regions of enhanced sky surface-brightness suggesting a narrow circumsolar ring of dust associated with Venus's orbit. We model this phenomenon by integrating the orbits of…

地球与行星天体物理 · 物理学 2019-04-30 Petr Pokorný , Marc J. Kuchner

Debris disks are dusty, gas-poor disks around main sequence stars (Backman & Paresce 1993; Lagrange, Backman & Artymowicz 2000; Zuckerman 2001). Micron-sized dust grains are inferred to exist in these systems from measurements of their…

天体物理学 · 物理学 2007-05-23 Christine H. Chen

We numerically investigate the migration of dust particles with initial orbits close to those of the numbered asteroids. The fraction of silicate particles that collided with the Earth during their lifetimes varied from 0.2% for 40 micron…

天体物理学 · 物理学 2007-05-23 S. I. Ipatov , J. C. Mather , P. A. Taylor

A heliocentric dust ring on Venus orbit was discovered following observations by the Helios spacecraft, and then confirmed thanks to observations by STEREO and the Parker Solar Probe. The impact risk it poses needs to be evaluated for any…

地球与行星天体物理 · 物理学 2026-02-18 Ariane Courtot , Mark Millinger

Uranus and Saturn share similarities in terms of their atmospheric composition, which is primarily made up of hydrogen and helium, as well as their ring systems. Uranus has 13 known rings, which are divided into narrow main rings, dusty…

地球与行星天体物理 · 物理学 2023-09-22 Hua-Shan Shih , Wing-Huen Ip

The particle dynamics of the recently observed ring around dwarf planet Haumea is numerically investigated. The point mass gravitational force, a second degree and order gravity field, and the solar radiation pressure as the main…

地球与行星天体物理 · 物理学 2018-08-01 Tamás Kovács , Zsolt Regály

The orbital evolution of particles released from the surface of a rubble-pile body by Earth's tides during flyby within the Roche limit is studied. Test particles initially placed on the surface leave the surface and escape the parent body.…

地球与行星天体物理 · 物理学 2011-04-20 Leonard Kornoš , Juraj Tóth , Peter Vereš

Millimeter interferometry provides evidence for the presence of mm to cm size "pebbles" in the outer parts of disks around pre-main-sequence stars. The observations suggest that large grains are produced relatively early in disk evolution…

天体物理学 · 物理学 2009-11-13 F. Brauer , C. P. Dullemond , A. Johansen , Th. Henning , H. Klahr , A. Natta

Identification by the Ulysses spacecraft of interstellar grains inside the planetary system provides a new window for the study of diffuse interstellar matter. Dust particles observed by Ulysses and confirmed by Galileo are more massive…

天体物理学 · 物理学 2015-06-24 E. Grün , M. Landgraf

The orbital evolution of asteroidal, trans-Neptunian, and cometary dust particles under the gravitational influence of planets, the Poynting-Robertson drag, radiation pressure, and solar wind drag was integrated. Results of our runs were…

天体物理学 · 物理学 2007-05-23 S. I. Ipatov , J. C. Mather

Millimeter emitting dust grains have sizes that make them susceptible to drift in protoplanetary disks due to a difference between their orbital speed and that of the gas. The characteristic drift timescale depends on the surface density of…

地球与行星天体物理 · 物理学 2024-10-10 Jonathan P. Williams , Caleb Painter , Alexa R. Anderson , Alvaro Ribas

The size distribution of asteroids in the solar system suggests that they formed top-down, with 100-1000 km bodies forming from the gravitational collapse of dense clumps of small solid particles. We investigate the conditions under which…

地球与行星天体物理 · 物理学 2016-04-11 Daniel Carrera , Anders Johansen , Melvyn B. Davies

Through Spitzer Space Telescope's observations, Su et al. (2005) show that the Vega debris disc is dominated by grains which are small enough to be blown out by radiation pressure. This implies the lifetime of Vega debris disc's grains is…

太阳与恒星天体物理 · 物理学 2009-09-09 Ing-Guey Jiang , Li-Chin Yeh

Main sequence stars are commonly surrounded by debris disks, formed by cold far-IR-emitting dust that is thought to be continuously replenished by a reservoir of undetected dust-producing planetesimals. We have investigated the orbital…

天体物理学 · 物理学 2009-11-13 A. Moro-Martin , R. Malhotra

The irregular satellites of Jupiter produce dust particles through the impact of interplanetary micrometeoroids. In this paper, the dynamics of these particles is studied by both high-accuracy numerical simulation and analytical theory, in…

地球与行星天体物理 · 物理学 2024-02-07 Zhenghan Chen , Kun Yang , Xiaodong Liu

This study employed grain dynamic models to examine the density distribution of debris discs, and discussed the effects of the collisional time-intervals of asteroidal bodies, the maximum grain sizes, and the chemical compositions of the…

太阳与恒星天体物理 · 物理学 2010-11-02 Ing-Guey Jiang , Li-Chin Yeh

This study examines the rotational characteristics of asteroids through statistical modeling of the diameter-period relationship. A statistical evaluation of the diameter-period relationship was conducted using a dataset of 34,326…

地球与行星天体物理 · 物理学 2025-08-26 Maryam Nastaran , Atila Poro , Raziyeh Hosseini , Matin Najarzadeh

Previously unknown asteroid P/2010 A2 rose to prominence in 2010 by forming a transient, comet-like tail consisting of ejected dust. The observed dust production was interpreted as either the result of a hypervelocity impact with a smaller…

地球与行星天体物理 · 物理学 2015-06-12 David Jewitt , Masateru Ishiguro , Jessica Agarwal
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