Physical and dynamical properties of the unusual V-type asteroid (2579) Spartacus

Oszkiewicz, D.; Kryszczyńska, A.; Kankiewicz, P.; Moskovitz, Nicholas; Skiff, B. A.; Leith, Thomas; Ďurech, Josef; Wlodarczyk, I.; Marciniak, A.; Geier, S.; Fedorets, Grigori; Troianskyi, Volodymyr; Föhring, Dóra

doi:10.1051/0004-6361/201833641

Cited by 10 publications

(13 citation statements)

References 49 publications

(55 reference statements)

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“…However, these findings were not confirmed by Ieva et al (2016Ieva et al ( , 2018. Only one asteroid in the inner main belt, (2579) Spartacus, shows an unusually low band area ratio (BAR, ratio of the areas encompassed by the 1.0-and 2.0-µm absorption bands) compared to Vesta family members (Burbine et al 2001;Moskovitz et al 2010;Oszkiewicz et al 2019). However, backward dynamical integration shows that the object could well originate from the Vesta family.…”

Section: Introductionmentioning

confidence: 99%

Spectral analysis of basaltic asteroids observed by the Gaia space mission

Oszkiewicz

Klimczak

Carry

et al. 2022

Monthly Notices of the Royal Astronomical Society

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There is a great deal of scientific interest in characterizing the basaltic asteroids (spectrally classified as V-types), as they are the key to understanding planetesimal formation and evolution in the early Solar System. These have long been recognized as parts of the crusts of fully differentiated planetesimals. Thus, their multiplicity, distribution, and physical characteristics are crucial for providing context for and constraining the theoretical evolution models of the Solar System. In this work, we perform spectral analysis with an extended data set of spectral measurements from the ESA Gaia mission Data Release 3, thus increasing the sample size of the analyzed V-types by more than three times as compared to the literature. Using the data provided by Gaia we identified ∼2000 possible V-type asteroids. About 350 of them successfully pass our data validation criteria. This sample includes 31 new V-type asteroids beyond 2.5 au and 6 in the Phocaea region. We confirm that the V-type asteroids in the middle and outer part of the main belt show distinct spectral properties compared to typical vestoids. In the inner main belt, we found a great diversity of spectral parameters among the V-types in all populations. Number of asteroids show band depths even greater than that of (1459) Magnya. Furthermore, some objects present 0.9 µm band-centers more than one standard deviation away from the typical value for vestoids. However since the DR3 band centers are often overestimated, those findings are to be confirmed. Overall our results indicate that the inner main belt may contain remnants of multiple differentiated planetesimals, not just (4) Vesta.

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Section: Introductionmentioning

confidence: 99%

Spectral analysis of basaltic asteroids observed by the Gaia space mission

Oszkiewicz

Klimczak

Carry

et al. 2022

Monthly Notices of the Royal Astronomical Society

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“…The obtained refined physical parameters of our objects will be used in further work. Numerical simulation (Troianskyi & Bazyey, 2018;Oszkiewicz et al, 2019;Troianskyi et al, 2022) of orbits on − 4 Gy to must confirm the theory of "hot population" migration from the region of Neptune (Levison et al, 2021).…”

Section: Discussionmentioning

confidence: 97%

Physical Properties of “Hot Population” Objects in the Kuiper Belt

Okhotko¹,

Troianskyi²,

Bazyey³

2022

OAP

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Most planetesimals formed at distances of 15 - 30 a.u. were gravitationally ejected from the Solar system as a result of the migration of the giant planets, but a small part remained, captured by Jupiter and the Kuiper belt. As a result, we can now observe such a variety, in terms of physical and dynamic characteristics, in the Trojan asteroids of Jupiter and in the Kuiper belt. Planetesimals captured by the Kuiper Belt are a "hot population" now. The term "hot" does not refer to the temperature of bodies, but characterizes the orbit of objects. ~120,000 objects larger than 100 km. in diameter are known in the "hot population". This population is characterized by an orbital inclina- tion greater than 5 degrees and a large eccentricity. The main task of the work, based on physical and dynamic characteristics, is to search for the same properties Trojan asteroids of Jupiter and objects from the "hot population" of the Kuiper belt, which supposedly migrated earlier from the region of the original orbit of Neptune. The data from ground-based observations and space missions is used in the work.

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“…In order to apply an appropriate dynamical model to the longterm numerical integration, we adopted a very similar approach as in our previous work on the asteroid (2579) Spartacus (Oszkiewicz et al 2019) and asteroids from the Flora region (Oszkiewicz et al 2015). The main tool was the SWIFT_RMVSY software developed by Brož (2006), which is a modification of the SWIFT_RMVS method from the SWIFT package (Duncan et al 1998 [1,2] Fugitive (1914) Hartbeespoortdam 12.09 2.406 0.139 0.0848 pro.…”

Section: Dynamical Modelmentioning

confidence: 99%

“…However, up-to-date spectral observations do not show a large number of distinct V-types (parts of mantles of the differentiated bodies) across the Solar System. Most V-types reside in the inner main belt in the vicinity of the fossil planetesimal (4) Vesta and are therefore considered related (Binzel & Xu 1993;Bus & Binzel 2002;DeMeo et al 2009;Moskovitz et al 2008bMoskovitz et al , 2010Popescu et al 2018;Oszkiewicz et al 2019Oszkiewicz et al , 2020. Most are parts of the Vesta family or considered Vesta fugitives, that is, objects that escaped the borders of the family through the combination of the Yarkovsky effect and dynamical resonances (Nesvornỳ 2015;Nesvorný et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Dynamical evolution of basaltic asteroids outside the Vesta family in the inner main belt

Troianskyi

Kankiewicz

Oszkiewicz

2023

A&A

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Context. Basaltic V-type asteroids are leftovers from the formation and evolution of differentiated planetesimals. They are thought to originate from mantles and crusts of multiple different parent bodies. Identifying the links between individual V-type asteroids and multiple planetesimals is challenging, especially in the inner part of the main asteroid belt, where the majority of V-type asteroids are expected to have originated from a single planetesimal, namely, (4) Vesta. Aims. In this work, we aim to trace the origin of a number of individual V-type asteroids from the inner part of the main asteroid belt. The main goal is to identify asteroids that may not be traced back to (4) Vesta and may therefore originate from other differentiated planetesimals. Methods. We performed a 2 Gyr backward numerical integration of the orbits of the selected V-type asteroids. For each asteroid, we used 1001 clones to map the effect of orbital uncertainties. In the integration, we use information on physical properties of the considered V-type asteroids such as pole orientation, rotational period, and thermal parameters. Results. The majority of the studied objects can be traced back to the Vesta family within 2 Gyr of integration. The number of objects of the low-inclination V-types did not reach the boundary of the Vesta family during the integration time. Two asteroids, namely, (3307) Athabasca and (17028) 1999 FJ5, do not show a dynamic link to (4) Vesta. Increasing the integration time for these objects leads to further separation from (4) Vesta. Conclusions. The majority of V-types in the inner main belt outside the Vesta family are clearly Vesta fugitives. Two objects, namely, (3307) Athabasca and (17028) 1999 FJ5, show no clear dynamical link to (4) Vesta. Together with (809) Lundia (from our previous work), these objects could represent the parent bodies of anomalous HED meteorites such as the Banbura Rockhole. Furthermore, some objects of the low-inclination population cannot be traced back to (4) Vesta within the 2 Gyr integration.

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Physical and dynamical properties of the unusual V-type asteroid (2579) Spartacus

Cited by 10 publications

References 49 publications

Spectral analysis of basaltic asteroids observed by the Gaia space mission

Spectral analysis of basaltic asteroids observed by the Gaia space mission

Physical Properties of “Hot Population” Objects in the Kuiper Belt

Dynamical evolution of basaltic asteroids outside the Vesta family in the inner main belt

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