Bibcode
DOI
Campins, Humberto; Ziffer, Julie; Licandro, Javier; Pinilla-Alonso, Noemí; Fernández, Yanga; León, Julia de; Mothé-Diniz, Thais; Binzel, Richard P.
Bibliographical reference
The Astronomical Journal, Volume 132, Issue 3, pp. 1346-1353.
Advertised on:
9
2006
Citations
37
Refereed citations
34
Description
We present visible and near-IR spectra of the nucleus of comet
162P/Siding Spring (also known as 2004 TU12) obtained in 2004 December,
while it had no detectable coma. This is the third object observed to
have intermittent cometary activity even when relatively close to the
Sun. The spectra show no strong features in this wavelength range. This
paucity of deep absorptions is common among low-albedo asteroids and the
few comet nuclei observed in this spectral region. Marginal spectral
structure is observed in the visible spectrum, and beyond 2 μm the
flux from the nucleus is dominated by thermal emission. We compare the
spectrum of 162P with published spectra of other comet nuclei, primitive
asteroids, and meteorites. Comet nuclei display a range of spectral
shapes and slopes not unlike those observed among outer main-belt
asteroids but closest to Trojan asteroids. No suitable spectral matches
to comet 162P were found among primitive (chondritic) meteorites. We
modeled our visible and near-IR spectra using the scattering theory
described by Shkuratov et al. (1999), and our approach is similar to
that used by Emery and Brown for modeling Trojan asteroids. Our best
fits to the spectral shape and albedo include mixtures containing
amorphous carbons, organics, and silicates. The absence of strong
spectral features prevents the identification of specific minerals, and
the resulting model compositions are not unique. The observations beyond
2 μm are interpreted in a companion publication by Fernández
and coworkers.