M. Baek scite author profile

We collected data on rotations and elongations of 46 secondaries of binary and triple systems among near-Earth, Mars-crossing and small main belt asteroids. 24 were found or are strongly suspected to be synchronous (in 1:1 spin-orbit resonance), and the other 22, generally on more distant and/or eccentric orbits, were found or are suggested to have asynchronous rotations. For 18 of the synchronous secondaries, we constrained their librational angles, finding that their long axes pointed to within 20 • of the primary on most epochs. The observed anti-correlation of secondary synchroneity with orbital eccentricity and the limited librational angles agree with the theories by (Ćuk, M., Nesvorný, D. [2010].

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Main belt binary asteroidal systems with circular mutual orbits☆

Marchis

Descamps

Baek

et al. 2008

Icarus

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In 2003, we initiated a long-term adaptive optics campaign to study the orbit of various main-belt asteroidal systems. Here we present a consistent solution for the mutual orbits of four binary systems: 22 Kalliope, 45 Eugenia, 107 Camilla and 762 Pulcova. With the exception of 45 Eugenia, we did not detect any additional satellites around these systems although we have the capability of detecting a loosely-bound fragment (located at 1/4 × R Hill ) that is ~40 times smaller in diameter than the primary. The common characteristic of these mutual orbits is that they are roughly circular. Three of these binary systems belong to a C-"group" taxonomic class. Our estimates of their bulk densities are consistently lower (~1 g/cm 3 ) than their associated meteorite analogs, suggesting an interior porosity of 30-50% (taking CI-CO meteorites as analogs). 22 Kalliope, a W-type asteroid, has a significantly higher bulk density of ~3 g/cm 3 , derived based on IRAS radiometric size measurement. We compare the characteristics of these orbits in the light of tidal-effect evolution.

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Multiple asteroid systems: Dimensions and thermal properties from Spitzer Space Telescope and ground-based observations

Marchis

Enriquez

Emery

et al. 2012

Icarus

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Abstract:We collected mid-IR spectra from 5.2 to 38 µm using the Spitzer Space Telescope Infrared Spectrograph of 28 asteroids representative of all established types of binary groups. Photometric lightcurves were also obtained for 14 of them during the Spitzer observations to provide the context of the observations and reliable estimates of their absolute magnitudes. The extracted mid-IR spectra were analyzed using a modified standard thermal model (STM) and a thermophysical model (TPM) that takes into account the shape and geometry of the large primary at the time of the Spitzer observation. We derived a reliable estimate of the size, albedo, and beaming factor for each of these asteroids, representing three main taxonomic groups: C, S, 2 and X. For large (volume-equivalent system diameter D eq >130 km) binary asteroids, the TPM analysis indicates a low thermal inertia (Γ ≤ ~100 J s -1/2 K -1 m -2 ) and their emissivity spectra display strong mineral features, implying that they are covered with a thick layer of thermally insulating regolith. The smaller (surface-equivalent system diameter D eff <17 km) asteroids also show some emission lines of minerals, but they are significantly weaker, consistent with regoliths with coarser grains, than those of the large binary asteroids. The average bulk densities of these multiple asteroids vary from 0.7-1.7 g/cm 3 (P-, C-type) to ~2 g/cm 3 (S-type). The highest density is estimated for the M-type (22) Kalliope (3.2 ± 0.9 g/cm 3 ). The spectral energy distributions (SED) and emissivity spectra, made available as a supplement document, could help to constrain the surface compositions of these asteroids.

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Main belt binary asteroidal systems with eccentric mutual orbits

Marchis

Descamps

Berthier

et al. 2008

Icarus

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M. Baek

Binary asteroid population. 3. Secondary rotations and elongations

Main belt binary asteroidal systems with circular mutual orbits☆

Multiple asteroid systems: Dimensions and thermal properties from Spitzer Space Telescope and ground-based observations

Main belt binary asteroidal systems with eccentric mutual orbits

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