Radar and optical observations and physical modeling of triple near-Earth Asteroid (136617) 1994 CC

► Radar observations reveal that NEA 1994 CC is the second-to-date confirmed triple system. ► The primary looks similar to 1999 KW4 Alpha with sloped hemispheres and an equatorial ridge. ► The inner satellite appears to be in spin–orbit lock, while the outer satellite is rotating asynchronously. ► A...

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Veröffentlicht in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2011-11, Vol.216 (1), p.241-256
Hauptverfasser: Brozović, Marina, Benner, Lance A.M., Taylor, Patrick A., Nolan, Michael C., Howell, Ellen S., Magri, Christopher, Scheeres, Daniel J., Giorgini, Jon D., Pollock, Joseph T., Pravec, Petr, Galád, Adrián, Fang, Julia, Margot, Jean-Luc, Busch, Michael W., Shepard, Michael K., Reichart, Daniel E., Ivarsen, Kevin M., Haislip, Joshua B., LaCluyze, Aaron P., Jao, Joseph, Slade, Martin A., Lawrence, Kenneth J., Hicks, Michael D.
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Sprache:eng
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Zusammenfassung:► Radar observations reveal that NEA 1994 CC is the second-to-date confirmed triple system. ► The primary looks similar to 1999 KW4 Alpha with sloped hemispheres and an equatorial ridge. ► The inner satellite appears to be in spin–orbit lock, while the outer satellite is rotating asynchronously. ► At least 25% of the binaries/triples with D > 200 m have a satellite that is asynchronous. We report radar, photometric, and spectroscopic observations of near-Earth Asteroid (136617) 1994 CC. The radar measurements were obtained at Goldstone (8560 MHz, 3.5 cm) and Arecibo (2380 MHz, 12.6 cm) on 9 days following the asteroid’s approach within 0.0168 AU on June 10, 2009. 1994 CC was also observed with the Panchromatic Robotic Optical Monitoring and Polarimetry Telescopes (PROMPT) on May 21 and June 1–3. Visible-wavelength spectroscopy was obtained with the 5-m Hale telescope at Palomar on August 25. Delay-Doppler radar images reveal that 1994 CC is a triple system; along with (153591) 2001 SN263, this is only the second confirmed triple in the near-Earth population. Photometry obtained with PROMPT yields a rotation period for the primary P = 2.38860 ± 0.00009 h and a lightcurve amplitude of ∼0.1 mag suggesting a shape with low elongation. Hale telescope spectroscopy indicates that 1994 CC is an Sq-class object. Delay-Doppler radar images and shape modeling reveal that the primary has an effective diameter of 0.62 ± 0.06 km, low pole-on elongation, few obvious surface features, and a prominent equatorial ridge and sloped hemispheres that closely resemble those seen on the primary of binary near-Earth Asteroid (66391) 1999 KW4. Detailed orbit fitting reported separately by Fang et al. (Fang, J., Margot, J.-L., Brozovic, M., Nolan, M.C., Benner, L.A.M., Taylor, P.A. [2011]. Astron. J. 141, 154–168) gives a mass of the primary of 2.6 × 10 11 kg that, coupled with the effective diameter, yields a bulk density of 2.1 ± 0.6 g cm −3. The images constrain the diameters of the inner and outer satellites to be 113 ± 30 m and 80 ± 30 m, respectively. The inner satellite has a semimajor axis of ∼1.7 km (∼5.5 primary radii), an orbital period of ∼30 h, and its Doppler dispersion suggests relatively slow rotation, 26 ± 12 h, consistent with spin–orbit lock. The outer satellite has an orbital period of ∼9 days and a rotation period of 14 ± 7 h, establishing that the rotation is not spin–orbit locked. Among all binary and triple systems observed by radar, at least 25% (7/28) have
ISSN:0019-1035
1090-2643
DOI:10.1016/j.icarus.2011.09.002