The Bimodal Color Distribution of Small Kuiper Belt Objects

We conducted a two-night photometric survey of small Kuiper Belt objects (KBOs) near opposition using the wide-field Hyper Suprime-Cam instrument on the 8.2 m Subaru Telescope. The survey covered about 90 deg^2 of sky, with each field imaged in the g and i bands. We detected 356 KBOs, ranging in absolute magnitude from 6.5 to 10.4. Filtering for high-inclination objects within the hot KBO population, we show that the g − i color distribution is strongly bimodal, indicative of two color classes—the red and very red subpopulations. After categorizing objects into the two subpopulations by color, we present the first dedicated analysis of the magnitude distributions of the individual color subpopulations and demonstrate that the two distributions are roughly identical in shape throughout the entire size range covered by our survey. Comparing the color distribution of small hot KBOs with that of Centaurs, we find that they have similar bimodal shapes, thereby providing strong confirmation of previous explanations for the attested bimodality of Centaurs. We also show that the magnitude distributions of the two KBO color subpopulations and the two color subpopulations observed in the Jupiter Trojans are statistically indistinguishable. Finally, we discuss a hypothesis describing the origin of the KBO color bimodality based on our survey results.

[1]  Z. Ivezic,et al.  Solar system objects observed in the Sloan Digital Sky Survey commissioning data , 2001 .

[2]  M. T. Bannister,et al.  OSSOS. II. A SHARP TRANSITION IN THE ABSOLUTE MAGNITUDE DISTRIBUTION OF THE KUIPER BELT’S SCATTERING POPULATION , 2015, 1511.02896.

[3]  Elisabetta Dotto,et al.  Ion Irradiation of Frozen Methanol, Methane, and Benzene: Linking to the Colors of Centaurs and Trans-Neptunian Objects , 2006 .

[4]  H. Boehnhardt,et al.  Colours of minor bodies in the outer solar system II. A statistical analysis revisited , 2012, 1209.1896.

[5]  Craig Loomis,et al.  Hyper Suprime-Cam , 2012, Other Conferences.

[6]  S. Sheppard THE COLOR DIFFERENCES OF KUIPER BELT OBJECTS IN RESONANCE WITH NEPTUNE , 2012, 1210.0537.

[7]  F. DeMeo,et al.  Colors and taxonomy of Centaurs and trans-Neptunian objects , 2009, 0912.2621.

[8]  W. Fraser,et al.  THE ABSOLUTE MAGNITUDE DISTRIBUTION OF KUIPER BELT OBJECTS , 2014, 1401.2157.

[9]  R. Gil-Hutton,et al.  Taxonomy of asteroid families among the Jupiter Trojans: comparison between spectroscopic data and the Sloan Digital Sky Survey colors , 2007, 0712.0046.

[10]  E. Bertin,et al.  SExtractor: Software for source extraction , 1996 .

[11]  Michael E. Brown,et al.  The Compositions of Kuiper Belt Objects , 2011, 1112.2764.

[12]  Mirel Birlan,et al.  Taxonomy of Centaurs and Trans-Neptunian Objects , 2005 .

[13]  Harold F. Levison,et al.  Origin of the structure of the Kuiper belt during a dynamical instability in the orbits of Uranus and Neptune , 2007, 0712.0553.

[14]  N. Peixinho,et al.  The bimodal colors of Centaurs and small Kuiper belt objects , 2012, 1206.3153.

[15]  Ian Wong,et al.  A HYPOTHESIS FOR THE COLOR BIMODALITY OF JUPITER TROJANS , 2016, 1607.04133.

[16]  K. Tsiganis,et al.  Origin of the orbital architecture of the giant planets of the Solar System , 2005, Nature.

[17]  J. Emery,et al.  THE DIFFERING MAGNITUDE DISTRIBUTIONS OF THE TWO JUPITER TROJAN COLOR POPULATIONS , 2014, 1408.2485.

[18]  E. Lellouch,et al.  THE ALBEDO–COLOR DIVERSITY OF TRANSNEPTUNIAN OBJECTS , 2014, 1406.1420.

[19]  K. Tsiganis,et al.  Chaotic capture of Jupiter's Trojan asteroids in the early Solar System , 2005, Nature.

[20]  K. Tsiganis,et al.  Origin of the cataclysmic Late Heavy Bombardment period of the terrestrial planets , 2005, Nature.

[21]  A. Doressoundiram,et al.  Reopening the TNOs color controversy: Centaurs bimodality and TNOs unimodality , 2003 .

[22]  W. Fraser,et al.  THE HUBBLE WIDE FIELD CAMERA 3 TEST OF SURFACES IN THE OUTER SOLAR SYSTEM: THE COMPOSITIONAL CLASSES OF THE KUIPER BELT , 2012, 1202.0827.

[23]  M. E. Brown,et al.  The Size Distribution of Trans-Neptunian Bodies* , 2004 .

[24]  Mauricio Solar,et al.  Astronomical data analysis software and systems , 2018, Astron. Comput..

[25]  N. Peixinho,et al.  Reanalyzing the visible colors of Centaurs and KBOs: what is there and what we might be missing , 2015, 1502.04145.

[26]  I. Wong,et al.  THE COLOR–MAGNITUDE DISTRIBUTION OF SMALL JUPITER TROJANS , 2014, 1510.03144.

[27]  J. Licandro,et al.  Links between the dynamical evolution and the surface color of the Centaurs , 2012 .

[28]  G. Bernstein,et al.  Orbit Fitting and Uncertainties for Kuiper Belt Objects , 2000 .