2011 HM102: DISCOVERY OF A HIGH-INCLINATION L5 NEPTUNE TROJAN IN THE SEARCH FOR A POST-PLUTO NEW HORIZONS TARGET
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Richard P. Binzel | David E. Trilling | Brian A. McLeod | Marc W. Buie | Pamela L. Gay | Cesar I. Fuentes | David J. Tholen | John R. Spencer | Francesca E. DeMeo | Scott S. Sheppard | David J. Osip | Jean-Marc Petit | Alex H. Parker | Susan D. Benecchi | Lawrence H. Wasserman | J. J. Kavelaars | Matthew J. Holman | S. Alan Stern | B. McLeod | P. Gay | D. Trilling | D. Tholen | M. Holman | L. Wasserman | D. Ragozzine | F. DeMeo | J. Petit | R. Binzel | D. Osip | J. Kavelaars | S. Sheppard | S. Gwyn | S. Benecchi | C. Fuentes | J. Spencer | S. Stern | M. Buie | A. Parker | Stephen D. J. Gwyn | David M. Borncamp | Sebastian Fabbro | Darin A. Ragozzine | the Ice Hunters | D. Borncamp | Their Hunters | S. Fabbro
[1] P. S. Lykawka,et al. 2008 LC18: A potentially unstable Neptune Trojan , 2012, 1202.3279.
[2] M. L. N. Ashby,et al. THE RESONANT TRANS-NEPTUNIAN POPULATIONS , 2012, 1205.7065.
[3] G. Bernstein,et al. Orbit Fitting and Uncertainties for Kuiper Belt Objects , 2000 .
[4] Joel Wm. Parker,et al. THE CANADA–FRANCE ECLIPTIC PLANE SURVEY—L3 DATA RELEASE: THE ORBITAL STRUCTURE OF THE KUIPER BELT , 2009, 1108.4836.
[5] C. Trujillo,et al. A Thick Cloud of Neptune Trojans and Their Colors , 2006, Science.
[6] A. Harris,et al. Eclipsing binary Trojan asteroid Patroclus: Thermal inertia from Spitzer observations , 2009, 0908.4198.
[7] T. Mukai,et al. Origin and dynamical evolution of Neptune Trojans: I. formation and planetary migration , 2009, 0909.0404.
[8] Paul J. Stomski,et al. A low density of 0.8 g cm-3 for the Trojan binary asteroid 617 Patroclus , 2006, Nature.
[9] Stephen. D. J. Gwyn,et al. MegaPipe: The MegaCam Image Stacking Pipeline at the Canadian Astronomical Data Centre , 2007, 0710.0370.
[10] Arlo U. Landolt,et al. UBVRI Photometric Standard Stars in the Magnitude Range 11 , 1992 .
[11] C. Trujillo,et al. THE SIZE DISTRIBUTION OF THE NEPTUNE TROJANS AND THE MISSING INTERMEDIATE-SIZED PLANETESIMALS , 2010, 1009.5990.
[12] E. B. Wilson. Probable Inference, the Law of Succession, and Statistical Inference , 1927 .
[13] David E. Trilling,et al. The Deep Ecliptic Survey: A Search for Kuiper Belt Objects and Centaurs. II. Dynamical Classification, the Kuiper Belt Plane, and the Core Population , 2005 .
[14] R. Lupton,et al. A Method for Optimal Image Subtraction , 1997, astro-ph/9712287.
[15] C. Trujillo,et al. Detection of a Trailing (L5) Neptune Trojan , 2010, Science.
[16] Dale P. Cruikshank,et al. NEAR-INFRARED SPECTROSCOPY OF TROJAN ASTEROIDS: EVIDENCE FOR TWO COMPOSITIONAL GROUPS , 2008, 1012.1284.
[17] R. Poleski,et al. A SOUTHERN SKY AND GALACTIC PLANE SURVEY FOR BRIGHT KUIPER BELT OBJECTS , 2010, 1107.5309.
[18] A. Delsanti,et al. Colors of Minor Bodies in the Outer Solar System ?;?? A statistical analysis , 2002 .
[19] J. Chambers. A hybrid symplectic integrator that permits close encounters between massive bodies , 1999 .
[20] Luke Dones,et al. How Long-Lived Are the Hypothetical Trojan Populations of Saturn, Uranus, and Neptune? , 2002 .
[21] Stephen. D. J. Gwyn,et al. SSOS: A Moving-Object Image Search Tool for Asteroid Precovery , 2011, 1111.3364.
[22] F. De Luise,et al. Visible spectroscopic and photometric survey of Jupiter Trojans: Final results on dynamical families , 2007, 0704.0350.