Yu. D. Medvedev scite author profile

Yu. D. Medvedev

5Publications

46Citation Statements Received

69Citation Statements Given

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Affiliations

Institute of Applied Astronomy, Russian Academy of Sciences, Military Space Academy named after AF Mozhaisky

Publications

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Dust bombardment can explain the extremely elongated shape of 1I/’Oumuamua and the lack of interstellar objects

Vavilov

Medvedev

2019

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Asteroid 1I/'Oumuamua is the first observed interstellar object. Its light-curve amplitude indicates that the object is highly elongated with an axis ratio of at least 5:1. The absence of such elongated asteroids in the Solar system, as well as the apparent lack of observed interstellar objects, are intriguing problems. Here we show that 'Oumuamua may have originated as a slightly-elongated asteroid about 500 × 300 meters in size. Surface erosion, caused by interstellar dust bombardment, subsequently increased the axis ratio. Simply traveling through the interstellar medium for 0.03 to 2 Gyrs would have sufficed to give 1I its present shape. Passing through a 10 pc dust cloud with a grain density of 10 −23 g/cm 3 at 50 km/s would have had a similar effect on 'Oumuamua's form. Smaller objects of around 100 meters in diameter can travel the Galactic disk for merely 30 Myrs before they are disrupted. This could explain the small number of interstellar objects observed to date.

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Shape evolution of cometary nuclei via anisotropic mass loss

Vavilov

Eggl

Medvedev

et al. 2019

A&A

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Context. Breathtaking imagery recorded during the European Space Agency's Rosetta mission confirmed the bilobate nature of comet 67P/Churyumov-Gerasimenko's nucleus. Its peculiar appearance is not unique among comets. The majority of cometary cores imaged at high resolution exhibit a similar build. Various theories have been brought forward as to how cometary nuclei attain such peculiar shapes.Aims. We illustrate that anisotropic mass loss and local collapse of subsurface structures caused by non-uniform exposure of the nucleus to solar irradiation can transform initially spherical comet cores into bilobed ones. Methods. A mathematical framework to describe the changes in morphology resulting from non-uniform insolation during a nucleus' spin-orbit evolution is derived. The resulting partial differential equations that govern the change in the shape of a nucleus subject to mass loss and consequent collapse of depleted subsurface structures are solved analytically for simple insolation configurations and numerically for more realistic scenarios. Results. The here proposed mechanism is capable of explaining why a large fraction of periodic comets appear to have peanut-shaped cores and why light-curve amplitudes of comet nuclei are on average larger than those of typical main belt asteroids of the same size.

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Radar observations of the asteroid 2011 UW158

et al. 2016

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Asymmetric outgassing of short-periodic comets with respect to perihelion

Bondarenko

Medvedev

2011

Sol Syst Res

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Collision of comet Shoemaker–Levi 9 with Jupiter: what shall we see?

Klumov¹,

Kondaurov²,

Konyukhov³

et al. 1994

Phys.-Usp.

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Yu. D. Medvedev

Dust bombardment can explain the extremely elongated shape of 1I/’Oumuamua and the lack of interstellar objects

Shape evolution of cometary nuclei via anisotropic mass loss

Radar observations of the asteroid 2011 UW158

Asymmetric outgassing of short-periodic comets with respect to perihelion

Collision of comet Shoemaker–Levi 9 with Jupiter: what shall we see?

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