ESO large program on physical studies of Transneptunian Objects and Centaurs: Visible photometry - First results

DOI: 
10.1051/0004-6361:20021265
Publication date: 
01/11/2002
Main author: 
Boehnhardt, H
IAA authors: 
Authors: 
Boehnhardt, H; Delsanti, A; Barucci, A; Hainaut, O; Doressoundiram, A; Lazzarin, M; Barrera, L; de Bergh, C; Birkle, K; Dotto, E; Meech, K; Ortiz, JE; Romon, J; Sekiguchi, T; Thomas, N; Tozzi, GP; Watanabe, J; West, RM
Journal: 
ASTRONOMY & ASTROPHYSICS
Publication type: 
Article
Volume: 
395
Pages: 
297-303
Number: 
Abstract: 
We present the first results of BVRI photometry of Transneptunian Objects (TNOs) and Centaurs obtained through the ESO Large Program on physical studies of these icy bodies in the outer solar system. In total 28 objects were observed of which 18 are new measurements. Combining our new BVRI photometry with the data summary published by Hainaut & Delsanti (2002) results in a database of 94 objects: 45 Cubewanos, 22 Plutinos, 13 scattered disk objects, 14 Centaurs. The reddening range seems to be similar among the four dynamical classes (-5 to 55%/100 nm) and only one outlier (1994 ES2) exists. The spectral gradient distribution of the Cubewanos peaks between 25 to 35%/100 nm, while for the three other types the maximum seems to fall below 20%/100 nm. A clustering of red Cubewanos with perihelia beyond similar to41 AU in low eccentricity and low inclination orbit suggests that these objects are less affected by the physical processes that potentially produce neutral colors, i.e. resurfacing by collision and by intrinsic activity. For Cubewanos and scattered disk objects, the range of reddening increases with decreasing perihelion distance and with increasing orbital excitation. A correlation of the spectral slope with inclination is present for Cubewanos and scattered disk objects, and is non-existent for the other dynamical types. It is unclear whether these trends (or their absence) are discriminative for the correctness of the resurfacing scenarios. If intrinsic activity is responsible for resurfacing, the start of the effect inside similar to41 AU from the Sun may be indicative for the driving agent, while in the collision scenario the survival of the red Cubewano cluster in the central region of the Kuiper-Belt argues for the existence of a population of bodies the surface of which is heavily radiation processed without impact resurfacing.
Keywords: 
Kuiper-Belt; minor planets, asteroids; techniques : photometric