Asteroid families classification: Exploiting very large datasets

Milani, Andrea; Cellino, A.; Knežević, Ž.; Novaković, Bojan; Spoto, F.; Paolicchi, Paolo

doi:10.1016/j.icarus.2014.05.039

Cited by 194 publications

(311 citation statements)

References 78 publications

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“…Another possibility for the predominance of volatilepoor asteroids is the breakup of a volatile-poor parent body inside the boomerang region. In fact, an S-type family, 5 Astraea, is identified in this region by Milani et al (2014). However, the family is oddly shaped, and the fact that the dynamics of the region by itself seems able to produce an accumulation of objects in this regions casts some doubts on whether Astrea is a real collisional family.…”

Section: Mass Depletionmentioning

confidence: 99%

On the current distribution of main belt objects: Constraints for evolutionary models

Michtchenko

Lazzaro

Carvano

2016

A&A

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Context. It is widely accepted that the current distribution of material in the main asteroidal belt (MB) is a product of the evolutionary history of the solar system during its whole lifetime of ∼4.5 billions of years and is, consequently, a major witness of the diverse stages of this evolution. Aims. The purpose of this paper is twofold: first, we study the principal aspects of the distribution of the asteroids in proper element space, mass, and, physical composition for a complete picture of the current MB. Second, we analyze if and how these current distributions can be explained by the long-lasting dynamical effects of the planets on this region of the solar system. Methods. We studied the distribution in the proper element space for the sample that consists of about 350 000 objects whose proper orbital elements are available from the database AstDyS. We studied the distribution in size and physical composition using the most recent and large available datasets. We constructed the dynamical portrait of the MB in form of the dynamical and averaged maps via the spectral analysis method. Results. The main properties of the current distributions of MB objects are identified. A comparison of the distributions of real objects with dynamical maps allows us to detect principal mechanisms of the diffusive transportation of the objects. These mechanisms are related to mean-motion resonances (MMRs) and secular resonances (SRs), overlaying with the slow dissipative Yarkovsky/Yorp drift. Conclusions. We identify the most relevant distributions of the material in the MB and show that many of the current features of the MB can be explained by the interplay of diverse dynamical mechanisms due to the planetary perturbations over 4 Gyr with nongravitational effects, without the need of 'catastrophic' events or 'ad hoc' migration mechanisms during the early stages of the solar system. In this sense, the obtained distributions can provide relevant constraints for modeling the origin and evolution of the MB.

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Section: Mass Depletionmentioning

confidence: 99%

On the current distribution of main belt objects: Constraints for evolutionary models

Michtchenko

Lazzaro

Carvano

2016

A&A

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“…The method of family age estimation based on V-shapes requires a Yarkovsky calibration, that is, an estimate for the maximum value of the Yarkovsky driven secular drift (da/dt) max for a hypothetical family member of diameter D = 1 km (Milani et al 2014). …”

Section: Age Of the Familymentioning

confidence: 99%

A Dark Asteroid Family in the Phocaea Region

Novaković

Tsirvoulis

Granvik

et al. 2017

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We report the discovery of a new asteroid family among the dark asteroids residing in the Phocaea region the Tamara family. We make use of available physical data to separate asteroids in the region according to their surface reflectance properties, and establish the membership of the family. We determine the slope of the cumulative magnitude distribution of the family, and find it to be significantly steeper than the corresponding slope of all the asteroids in the Phocaea region. This implies that sub-kilometer dark Phocaeas are comparable in number to bright S-type objects, shedding light on an entirely new aspect of the composition of small Phocaea asteroids. We then use the Yarkovsky V-shape based method and estimate the age of the family to be 264 ± 43 Myr. Finally, we carry out numerical simulations of the dynamical evolution of the Tamara family. The results suggest that up to 50 Tamara members with absolute magnitude H < 19.4 may currently be found in the near-Earth region. Despite their relatively small number in the near-Earth space, the rate of Earth impacts by small, dark Phocaeas is non-negligible.

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“…Of course, due to its much larger size (r e ∼ 470 km; Carry et al 2008;Park et al 2016) relative to the other objects we are considering here, the physical regime occupied by the object is certainly very different from those occupied by other active asteroids. No family has been identified for Ceres to date (e.g., Milani et al 2014;Rivkin et al 2014), although Carruba et al (2016b) proposed that Ceres family members might simply be highly dispersed and therefore undetectable by standard family identification techniques.…”

Section: Active Asteroids Without Associated Familiesmentioning

confidence: 99%

“…As ongoing surveys continue to discover more asteroids, and particularly as future surveys discover smaller and fainter asteroids than are detectable now, continued searches for tightly clustered young families should be performed (e.g., Milani et al 2014), perhaps using osculating or mean elements rather than proper elements for detecting very young clusters (e.g., Nesvorny et al 2006;Pravec & Vokrouhlický 2009;Pravec et al 2017;Rosaev & Plávalová 2017). Furthermore, as new young families are identified -especially ones associated with known MBCs, believed to contain primitive asteroids, or found in the outer main belt (i.e., a between the 5J:2A MMR at 2.8252 AU and the 2J:1A MMR at 3.2783 AU) -targeted observations or at least targeted close examination of survey data of members of these young families should be conducted to search for new MBCs.…”

Section: Mbc Formationmentioning

confidence: 99%

Asteroid Family Associations of Active Asteroids

Hsieh

Novaković

Kim

et al. 2018

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We report on the results of a systematic search for associated asteroid families for all active asteroids known to date. We find that 10 out of 12 main-belt comets (MBCs) and 5 out of 7 disrupted asteroids are linked with known or candidate families, rates that have ∼0.1% and ∼6% probabilities, respectively, of occurring by chance, given an overall family association rate of 37% for asteroids in the inner solar system. We find previously unidentified family associations between 238P/Read and the candidate Gorchakov family, 311P/PANSTARRS and the candidate Behrens family, 324P/La Sagra and the Alauda family, 354P/LINEAR and the Baptistina family, P/2013 R3-B (Catalina-PANSTARRS) and the Mandragora family, P/2015 X6 (PANSTARRS) and the Aeolia family, P/2016 G1 (PANSTARRS) and the Adeona family, and P/2016 J1-A/B (PANSTARRS) and the Theobalda family. All MBCs with family associations belong to families that contain asteroids with primitive taxonomic classifications and low average reported albedos (p V 0.10), while disrupted asteroids with family associations belong to families that contain asteroids that span wider ranges of taxonomic types and average reported albedos (0.06 < p V < 0.25). These findings are consistent with MBC activity being closely correlated to composition (i.e., whether an object is likely to contain ice), while disrupted asteroid activity is not as sensitive to composition. Given our results, we describe a sequence of processes by which the formation of young asteroid families could lead to the production of present-day MBCs.

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Asteroid families classification: Exploiting very large datasets

Cited by 194 publications

References 78 publications

On the current distribution of main belt objects: Constraints for evolutionary models

On the current distribution of main belt objects: Constraints for evolutionary models

A Dark Asteroid Family in the Phocaea Region

Asteroid Family Associations of Active Asteroids

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