Transneptunian objects and Centaurs

doi:10.1017/CBO9781107358249.023

23 - Transneptunian objects and Centaurs

from IV - Solar system

Published online by Cambridge University Press: 05 May 2015

Irina Belskaya and

Stefano Bagnulo

Edited by

Ludmilla Kolokolova ,

James Hough and

Anny-Chantal Levasseur-Regourd

Show author details

Ludmilla Kolokolova: Affiliation:
University of Maryland, College Park
James Hough: Affiliation:
University of Hertfordshire
Anny-Chantal Levasseur-Regourd: Affiliation:
Université de Paris VI (Pierre et Marie Curie)

Book contents

Get access

Summary

A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'

Type: Chapter
Information: Polarimetry of Stars and Planetary Systems , pp. 405 - 418

DOI: https://doi.org/10.1017/CBO9781107358249.023 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2015

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Albrecht, R., Barbieri, C., Adorf, H.-M.et al. (1994). High-resolution imaging of the Pluto–Charon system with the Faint Object Camera of the Hubble Space Telescope. The Astrophysical Journal, 435, L75–L78.CrossRef Google Scholar

Alvarez-Candal, A., Barucci, M. A., Merlin, F., Guilbert, A., and de Bergh, C. (2007). A search for rotational variations on trans-Neptunian objects. Astronomy and Astrophysics, 475, 369–374.CrossRef Google Scholar

Appenzeller, I. (1967). A new polarimeter for faint astronomical objects. Publications of the Astronomical Society, 79, 136–139.CrossRef Google Scholar

Appenzeller, I., Fricke, K., Fürtig, W.et al. (1998). Successful commissioning of FORS1 − the first optical instrument on the VLT. The Messenger, 94, 1–6.Google Scholar

Avramchuk, V. V., Rakhimov, V. Iu., Chernova, G. P., and Shavlovskii, V. I. (1992). Photometry and polarimetry of Pluto near its perihelion. Kinematics and Physics of Celestial Bodies, 8, 30–37.Google Scholar

Bagnulo, S., Boehnhardt, H., Muinonen, K.et al. (2006). Exploring the surface properties of Transneptunian Objects and Centaurs with polarimetric FORS1/VLT observations. Astronomy and Astrophysics, 450, 1239–1248.CrossRef Google Scholar

Bagnulo, S., Belskaya, I., Muinonen, K.et al. (2008). Discovery of two distinct polarimetric behaviours of trans-Neptunian objects. Astronomy and Astrophysics, 491, L33–L36.CrossRef Google Scholar

Bagnulo, S., Landolfi, M., Landstreet, J. D.et al. (2009). Stellar spectropolarimetry with retarder waveplate and beam splitter devices. Publications of the Astronomical Society of the Pacific, 121, 993–1015.CrossRef Google Scholar

Bagnulo, S., Tozzi, G. P., Boehnhardt, H., Vincent, J.-B., and Muinonen, K. (2010). Polarimetry and photometry of the peculiar main-belt object 7968 = 133P/Elst–Pizarro. Astronomy and Astrophysics, 514, A99, pp. 13.CrossRef Google Scholar

Bagnulo, S., Belskaya, I., Boehnhardt, H.et al. (2011). Polarimetry of small objects of the solar system with large telescope. Journal of Quantitative Spectroscopy and Radiative Transfer, 112, 2059–2067.CrossRef Google Scholar

Barkume, K. M., Brown, M. E., and Schaller, E. L. (2008). Near-infrared spectra of Centaurs and Kuiper Belt objects. The Astronomical Journal, 135, 55–67.CrossRef Google Scholar

Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds. (2008). The Solar System Beyond Neptune. Tucson: University of Arizona Press.Google Scholar

Barucci, M. A., Alvarez-Candal, A., Merlin, F.et al. (2011). New insights on ices in Centaur and Transneptunian populations. Icarus, 214, 297–307.CrossRef Google Scholar

Belskaya, I. N., ed. (2013). Polarimetry of Transneptunian Objects and Centaurs V3.0. EAR-A-COMPIL-3-TNO-CEN-POLARIM-V3.0. NASA Planetary Data System.Google Scholar

Belskaya, I. N., Ortiz, J. L., Rousselot, P.et al. (2006). Low phase angle effects in photometry of trans-Neptunian objects: 20000 Varuna and 1996 TO66. Icarus, 184, 277–284.CrossRef Google Scholar

Belskaya, I., Bagnulo, S., Muinonen, K.et al. (2008a). Polarimetry of the dwarf planet (136199) Eris. Astronomy and Astrophysics, 479, 265–269.CrossRef Google Scholar

Belskaya, I. N., Levasseur-Regourd, A.-C., Shkuratov, Y. G., and Muinonen, K. (2008b). Surface properties of Kuiper Belt objects and Centaurs from photometry and polarimetry. In Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds., The Solar System Beyond Neptune. Tucson: University of Arizona Press, pp. 115–127.Google Scholar

Belskaya, I. N., Bagnulo, S., Barucci, M. A.et al. (2010). Polarimetry of Centaurs (2060) Chiron, (5145) Pholus and (10199) Chariklo. Icarus, 210, 472–479.CrossRef Google Scholar

Belskaya, I. N., Bagnulo, S., Stinson, A.et al. (2012). Polarimetry of trans-Neptunian objects (136472) Makemake and (90482) Orcus. Astronomy and Astrophysics, 547, id. A101.CrossRef Google Scholar

Boehnhardt, H., Bagnulo, S., Muinonen, K.et al. (2004). Surface characterization of 28978 Ixion (2001 KX76). Astronomy and Astrophysics, 415, L21–L25.CrossRef Google Scholar

Boehnhardt, H., Tozzi, G. P., Bagnulo, S.et al. (2008). Photometry and polarimetry of the nucleus of comet 2P/Encke. Astronomy and Astrophysics, 489, 1337–1343.CrossRef Google Scholar

Braga-Ribas, F., Sicardy, B., Ortiz, J. L.et al. (2013). The size, shape, albedo, density, and atmospheric limit of transneptunian object (50000) Quaoar from multi-chord stellar occultations. The Astrophysical Journal, 773, id. 26, 13 pp.CrossRef Google Scholar

Breger, M. and Cochran, W. D. (1982). Polarimetry of Pluto. Icarus, 49, 120–124.CrossRef Google Scholar

Brown, M. E. (2008). The largest Kuiper Belt objects. In Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds., The Solar System Beyond Neptune. Tucson: University of Arizona Press, pp. 335–344.Google Scholar

Brown, M. E., Trujillo, C., and Rabinowitz, D. L. (2005). Discovery of a planetary-sized object in the scattered Kuiper belt. The Astrophysical Journal Letters, 635, L97–L100.CrossRef Google Scholar

Brown, M. E., Barkume, K. M., Ragozzine, D., andSchaller, E. L. (2007a). A collisional family of icy objects in the Kuiper belt. Nature, 446, 294–296.CrossRef Google Scholar PubMed

Brown, M. E., Barkume, K. M., Blake, G. A. (2007b). Methane and ethane on the bright Kuiper Belt object 2005 FY9. The Astronomical Journal, 133, 284–289.CrossRef Google Scholar

Brown, M. E., Ragozzine, D., Stansberry, J., and Fraser, W. C. (2010). The size, density, and formation of the Orcus-Vanth system in the Kuiper Belt. The Astronomical Journal, 139, 2700–2705.CrossRef Google Scholar

Buie, M. W., Grundy, W. M., Young, E. F., Young, L. A., and Stern, S. A. (2010). Pluto and Charon with the Hubble Space Telescope. I. Monitoring global change and improved surface properties from light curves. The Astronomical Journal, 139, 1117–1127.CrossRef Google Scholar

Buratti, B. J., Bauer, J. M., Hicks, M. D.et al. (2011). Photometry of Triton 1992–2004: Surface volatile transport and discovery of a remarkable opposition surge. Icarus, 212, 835–846.CrossRef Google Scholar

Bus, S. J. and Binzel, R. P. (2002). Phase II of the small main-belt asteroid spectroscopic survey: A feature-based taxonomy. Icarus, 158, 146–177.CrossRef Google Scholar

Carry, B., Hestroffer, D., DeMeo, F. E.et al. (2011). Integral-field spectroscopy of (90482) Orcus-Vanth. Astronomy and Astrophysics, 534, id. A115.CrossRef Google Scholar

Choi, Y. J., Brosch, N., and Prialnik, D. (2003). Rotation and cometary activity of KBO (29981) 1999 TD₁₀. Icarus, 165, 101–111.CrossRef Google Scholar

Cruikshank, D. P., Roush, T. L., Bartholomew, M. J.et al. (1998). The composition of Centaur 5145 Pholus. Icarus, 135, 389–407.CrossRef Google Scholar

Dalle Ore, C. M., Barucci, M. A., Emery, J. P.et al. (2009). Composition of KBO (50000) Quaoar. Astronomy and Astrophysics, 501, 349–357.CrossRef Google Scholar

Dougherty, I. M. and Geake, J. E. (1994). Polarization by frost formed at very low temperatures, as relevant to icy planetary surfaces. Monthly Notices of the Royal Astronomical Society, 271, 343–354.CrossRef Google Scholar

Duffard, R., Lazzaro, D., Pinto, S.et al. (2002). New activity of Chiron: Results from 5 years of photometric monitoring. Icarus, 160, 44–51.CrossRef Google Scholar

Duffard, R., Pinilla-Alonso, N., Santos-Sanz, P.et al. (2014). TNOs are cool: A survey of the transneptunian region: A Herschel-PACS view of 16 Centaurs. Astronomy and Astrophysics, 564, A92.CrossRef Google Scholar

Emel’yanenko, V. V., Asher, D. J., and Bailey, M. E. (2005). Centaurs from the Oort cloud and the origin of Jupiter-family comets. Monthly Notices of the Royal Astronomical Society, 361, 1345–1351.CrossRef Google Scholar

Fornasier, S., Doressoundiram, A., Tozzi, G. P.et al. (2004). ESO Large Program on physical studies of Trans-Neptunian objects and Centaurs: Final results of the visible spectrophotometric observations. Astronomy and Astrophysics, 421, 353–363.CrossRef Google Scholar

Fornasier, S., Barucci, M. A., de Bergh, C.et al. (2009). Visible spectroscopy of the new ESO large programme on trans-Neptunian objects and Centaurs: Final results. Astronomy and Astrophysics, 508, 457–465.CrossRef Google Scholar

Fornasier, S., Lellouch, E., Müller, T.et al. (2013). TNOs are cool: A survey of the trans-Neptunian region. VIII. Combined Herschel PACS and SPIRE observations of nine bright targets at 70–500 μm. Astronomy and Astrophysics, 555, A15, 12 pp.CrossRef Google Scholar

Fossati, L., Bagnulo, S., Mason, E., and Landi Degl’Innocenti, E. (2007). Standard stars for linear polarization observed with FORS1. In Sterken, C., ed., The Future of Photometric, Spectrophotometric and Polarimetric Standardization. San Francisco: Astronomical Society of Pacific, pp. 503–507.Google Scholar

Fraser, W. C., Trujillo, C., Stephens, A. W.et al. (2013). Limits on Quaoar’s atmosphere. The Astrophysical Journal Letters, 774, id. L18, 4 pp.CrossRef Google Scholar

Fulchignoni, M., Belskaya, I., Barucci, M. A., De Santis, M. C., and Doressoundiram, A. (2008). Transneptunian object taxonomy. In Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds., The Solar System Beyond Neptune. Tucson: University of Arizona Press, pp. 181–192.Google Scholar

Gladman, B., Marsden, B. G., and Vanlaerhoven, C. (2008). Nomenclature in the Outer Solar System. In: Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds., The Solar System Beyond Neptune. Tucson: University of Arizona Press, pp. 43–57.Google Scholar

Guilbert, A., Barucci, M. A., Brunetto, R.et al. (2009). A portrait of Centaur 10199 Chariklo. Astronomy and Astrophysics, 501, 777–784.CrossRef Google Scholar

Jewitt, D. C. and Luu, J. X. (1993). Discovery of the candidate Kuiper belt object 1992 QB1. Nature, 362, 730–732.CrossRef Google Scholar

Jewitt, D. C. and Luu, J. (2004). Crystalline water ice on the Kuiper belt object (50000) Quaoar. Nature, 432, 731–733.CrossRef Google Scholar PubMed

Kelsey, J. D. and Fix, L. A. (1973). Polarimetry of Pluto. The Astrophysical Journal, 184, 633–636.Google Scholar

Lacerda, P., Jewitt, D., and Peixinho, N. (2008). High-precision photometry of extreme KBO 2003 EL₆₁. The Astronomical Journal, 135, 1749–1756.CrossRef Google Scholar

Lellouch, E., Santos-Sanz, P., Lacerda, P.et al. (2013). 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. Astronomy and Astrophysics, 557, id. A60, 19 pp.CrossRef Google Scholar

Luu, J., Jewitt, D., and Trujillo, C. (2000). Water ice in 2060 Chiron and its implications for Centaurs and Kuiper belt objects. The Astrophysical Journal Letters, 531, L151–L154.CrossRef Google Scholar PubMed

Merlin, F., Alvarez-Candal, A., Delsanti, A.et al. (2009). Stratification of methane ice on Eris’ surface. The Astronomical Journal, 137, 315–328.CrossRef Google Scholar

Merlin, F., Barucci, M. A., de Bergh, C.et al. (2010). Chemical and physical properties of the variegated Pluto and Charon surfaces. Icarus, 210, 930–943.CrossRef Google Scholar

Merlin, F., Quirico, E., Barucci, M. A., and de Bergh, C. (2012). Methanol ice on the surface of minor bodies in the solar system. Astronomy and Astrophysics, 544, A20, 8 pp.CrossRef Google Scholar

Muinonen, K. (2004). Coherent backscattering of light by complex random media of spherical scatterers: Numerical solution. Waves in Random Media, 14(3), 365–388.CrossRef Google Scholar

Noll, K. S., Grundy, W. M., Schlichting, H., Murray-Clay, R., and Benecchi, S. D. (2012). (38628) Huya. International Astronomical Union Circulars, 9253, 2.Google Scholar

Ortiz, J. L., Sicardy, B., Braga-Ribas, F.et al. (2012). Albedo and atmospheric constraints of dwarf planet Makemake from a stellar occultation. Nature, 491, 566–569.CrossRef Google Scholar PubMed

Pinilla-Alonso, N., Brunetto, R., Licandro, J.et al. (2009). The surface of (136108) Haumea (2003 EL61), the largest carbon-depleted object in the trans-Neptunian belt. Astronomy and Astrophysics, 496, 547–556.CrossRef Google Scholar

Rabinowitz, D. L., Schaefer, B. E., and Tourtellotte, S. W. (2007). The diverse solar phase curves of distant icy bodies. I. Photometric observations of 18 trans-Neptunian objects, 7 Centaurs, and Nereid. The Astronomical Journal, 133, 26–43.CrossRef Google Scholar

Rousselot, P., Levasseur-Regourd, A. C., Muinonen, K., and Petit, J.-M. (2005). Polarimetric and photometric phase effects observed on transneptunian object (29981) 1999 TD₁₀. Earth, Moon, and Planets, 97, 353–364.CrossRef Google Scholar

Santoz-Sans, P., Lellouch, E., Fornasier, S.et al. (2012). TNOs are cool: A survey of the trans-Neptunian region. IV. Size/albedo characterization of 15 scattered disk and detached objects observed with Herschel-PACS. Astronomy and Astrophysics, 541, id. A92, 18 pp.Google Scholar

Scarrott, S. M., Warren-Smith, R. F., Pallister, W. S., Axon, D. J., and Bingham, R. G. (1983). Electronographic polarimetry – The Durham polarimeter. Monthly Notices of the Royal Astronomical Society, 204, 1163–1177.CrossRef Google Scholar

Shkuratov, Yu. G., Muinonen, K., Bowell, E.et al. (1994). A critical review of theoretical models for the negative polarization of light scattered by atmosphereless solar system bodies. Earth, Moon, and Planets, 65(3), 201–246.CrossRef Google Scholar

Shkuratov, Yu., Ovcharenko, A., Zubko, E.et al. (2002). The opposition effect and negative polarization of structurally simulated planetary regoliths. Icarus, 159, 396–416.CrossRef Google Scholar

Sicardy, B., Ortiz, J. L., Assafin, M.et al. (2011). A Pluto-like radius and a high albedo for the dwarf planet Eris from an occultation. Nature, 478, 493–496.CrossRef Google Scholar

Stansberry, J., Grundy, W., Brown, M.et al. (2008). Physical properties of Kuiper belt and Centaurs objects: Constraints from Spitzer space telescope. In Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds., The Solar System Beyond Neptune. Tucson: University of Arizona Press, pp. 161–179.Google Scholar

Stern, S. A. and Trafton, L. M. (2008). On the atmospheres of objects in the Kuiper Belt. In Barucci, M.-A., Boehnhardt, H., Cruikshank, D. P., and Morbidelli, A., eds., The Solar System Beyond Neptune. Tucson: University of Arizona Press, pp. 365–380.Google Scholar

Tancredi, G. and Favre, S. (2008). Which are the dwarfs in the Solar System?Icarus, 195, 851–862.CrossRef Google Scholar

Tegler, S. C., Cornelison, D. M., Grundy, W. M.et al. (2010). Methane and nitrogen abundances on Pluto and Eris. The Astrophysical Journal, 725, 1296–1305.CrossRef Google Scholar

Tegler, S. C., Grundy, W. M., Olkin, C. B.et al., (2012). Ice mineralogy across and into the surfaces of Pluto, Triton, and Eris. The Astrophysical Journal, 751, 76, 10pp.CrossRef Google Scholar

Tozzi, G. P., Bagnulo, S., Barucci, M. A.et al. (2012). Search for coma in Centaurs (2060) Chiron, (5145) Pholus and (10199) Chariklo. Abstract for DPS meeting #44, #310.15.Google Scholar

Book contents

23 - Transneptunian objects and Centaurs

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive