论文信息 - LARGE SIZE AND SLOW ROTATION OF THE TRANS-NEPTUNIAN OBJECT (225088) 2007 OR10 DISCOVERED FROM HERSCHEL AND K2 OBSERVATIONS - 字舞流文

LARGE SIZE AND SLOW ROTATION OF THE TRANS-NEPTUNIAN OBJECT (225088) 2007 OR10 DISCOVERED FROM HERSCHEL AND K2 OBSERVATIONS

We present the first comprehensive thermal and rotational analysis of the second most distant trans-Neptunian object (225088) 2007 OR10. We combined optical light curves provided by the Kepler space telescope -- K2 extended mission and thermal infrared data provided by the Herschel Space Observatory. We found that (225088) 2007 OR10 is likely to be larger and darker than derived by earlier studies: we obtained a diameter of d=1535^{+75}_{-225} km which places (225088) 2007 OR10 in the biggest top three trans-Neptunian objects. The corresponding visual geometric albedo is p_V=0.089^{+0.031}_{-0.009}. The light curve analysis revealed a slow rotation rate of P_rot=44.81+/-0.37 h, superseded by a very few objects only. The most likely light-curve solution is double-peaked with a slight asymmetry, however, we cannot safely rule out the possibility of having a rotation period of P_rot=22.40+/-0.18 h which corresponds to a single-peaked solution. Due to the size and slow rotation, the shape of the object should be a MacLaurin ellipsoid, so the light variation should be caused by surface inhomogeneities. Its newly derived larger diameter also implies larger surface gravity and a more likely retention of volatiles -- CH_4, CO and N_2 -- on the surface.

University of Sydney | Earth Sciences | L'aszl'o Moln'ar | T. Müller | L. Kiss | R. Szab'o | L. Moln'ar | C. Kiss | Department of Astronomy | Csaba Kiss | Thomas G. Muller | Max-Planck-Institut fur extraterrestrische Physik | A. P'al | K. S'arneczky | Sydney Institute for Astronomy | Andr'as P'al | R'obert Szab'o | Gyula M. Szab | Kriszti'an S'arneczky | L'aszl'o L. Kiss Konkoly Observatory | Research Centre for Astronomy | Eotvos University | ELTE Gothard Astrophysical Observatory | Gothard-Lendulet Research Team | School of Physics A28 | G. Szabó

[1] Richard J. Rudy,et al. A refined “standard” thermal model for asteroids based on observations of 1 Ceres and 2 Pallas , 1986 .

[2] M. Moretti,et al. PUSHING THE LIMITS, EPISODE 2: K2 OBSERVATIONS OF EXTRAGALACTIC RR LYRAE STARS IN THE DWARF GALAXY LEO IV , 2015, 1508.05587.

[3] D. Reimers,et al. METHANOL AS A TRACER OF FUNDAMENTAL CONSTANTS , 2011, 1106.1569.

[4] Michael E. Brown,et al. THE DENSITY OF MID-SIZED KUIPER BELT OBJECT 2002 UX25 AND THE FORMATION OF THE DWARF PLANETS , 2013, 1311.0553.

[5] D. A. Caldwell,et al. INITIAL CHARACTERISTICS OF KEPLER SHORT CADENCE DATA , 2009, 1001.0142.

[6] Lor'and Eotvos University,et al. Physical properties of the extreme centaur and super-comet candidate 2013 AZ60 , 2015, 1507.05468.

[7] Thomas Müller,et al. Asteroids as calibration standards in the thermal infrared for space observatories , 2002 .

[8] M. Norman,et al. The Potato Radius: a Lower Minimum Size for Dwarf Planets , 2010, 1004.1091.

[9] Armin Rest,et al. No signature of ejecta interaction with a stellar companion in three type Ia supernovae , 2015, Nature.

[10] J. Spencer. A rough-surface thermophysical model for airless planets , 1990 .

[11] K. Flaherty,et al. CONNECTING X-RAY AND INFRARED VARIABILITY AMONG YOUNG STELLAR OBJECTS: RULING OUT POTENTIAL SOURCES OF DISK FLUCTUATIONS , 2014, 1407.4985.

[12] H. Bischof,et al. The Photodetector Array Camera and Spectrometer (PACS) on the Herschel Space Observatory , 2010, 1005.1487.

[13] LIGHT CURVES OF 32 LARGE TRANSNEPTUNIAN OBJECTS , 2013, 1301.5791.

[14] Alan W. Harris,et al. A Thermal Model for Near-Earth Asteroids , 1998 .

[15] Michael Mommert,et al. “TNOs are Cool”: A survey of the trans-Neptunian region - IX. Thermal properties of Kuiper belt objects and Centaurs from combined Herschel and Spitzer observations , 2013 .

[16] Howard Isaacson,et al. Kepler Planet-Detection Mission: Introduction and First Results , 2010, Science.

[17] L. Kiss,et al. MAIN-BELT ASTEROIDS IN THE K2 ENGINEERING FIELD OF VIEW , 2015, 1501.05967.

[18] H. Plummer. On the Ellipticities of the Maclaurin Ellipsoids , 1919 .

[19] Nicolas Thomas,et al. TNOs are Cool: A Survey of the Transneptunian Region , 2008, Astronomy & Astrophysics.

[20] The Peculiar Photometric Properties of 2010 WG9: A Slowly-Rotating Trans-Neptunian Object from the Oort Cloud , 2013, 1305.5134.

[21] András Pál,et al. fitsh– a software package for image processing , 2011 .

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

[23] M. Mommert,et al. Nereid from space: Rotation, size and shape analysis from K2, Herschel and Spitzer observations , 2016, 1601.02395.

[24] R. Kawabe,et al. THE DYNAMICAL STATE OF THE SERPENS SOUTH FILAMENTARY INFRARED DARK CLOUD , 2013, 1309.2425.

[25] L. Lebofsky,et al. Systematic biases in radiometric diameter determinations , 1989 .

[26] A. Burgasser,et al. THE SURFACE COMPOSITION OF LARGE KUIPER BELT OBJECT 2007 OR10 , 2011, 1108.1418.

[27] Yan-Rong Li,et al. ALIGNMENTS OF BLACK HOLES WITH THEIR WARPED ACCRETION DISKS AND EPISODIC LIFETIMES OF ACTIVE GALACTIC NUCLEI , 2015, 1503.00432.

[28] J. Munn,et al. The USNO-B Catalog , 2002, astro-ph/0210694.

[29] L. Kiss,et al. PUSHING THE LIMITS: K2 OBSERVATIONS OF THE TRANS-NEPTUNIAN OBJECTS 2002 GV31 and (278361) 2007 JJ43 , 2015, 1504.03671.

[30] Scott S. Sheppard,et al. Light Curves of Dwarf Plutonian Planets and other Large Kuiper Belt Objects: Their Rotations, Phase Functions, and Absolute Magnitudes , 2007, 0704.1636.

[31] S. Ott,et al. Herschel Space Observatory - An ESA facility for far-infrared and submillimetre astronomy , 2010, 1005.5331.

[32] H. Boehnhardt,et al. Photometry of Transneptunian Objects for the Herschel Key Program ‘TNOs are Cool’ , 2014 .

[33] F. Mullally,et al. The K2 Mission: Characterization and Early Results , 2014, 1402.5163.

[34] P. S. Bunclark,et al. Astronomical Data Analysis Software and Systems , 2008 .