Optical and Near-Infrared Polarimetry for a Highly Dormant Comet 209P/LINEAR

Abstract

We conducted an optical and near-infrared polarimetric observation of the highly dormant Jupiter-Family Comet, 209P/LINEAR. Because of its low activity, we were able to determine the linear polarization degrees of the coma dust particles and nucleus independently, that is Pn=30.3+1.3-0.9% at α=92.2 and Pn=31.0+1.0-0.7% at α=99.5 for the nucleus, and Pc=28.8+0.4-0.4% at α=92.2 and 29.6+0.3-0.3% at α=99.5 for the coma. We detected no significant variation in P at the phase angle coverage of 92.2-99.5, which may imply that the obtained polarization degrees are nearly at maximum in the phase-polarization curves. By fitting with an empirical function, we obtained the maximum values of linear polarization degrees Pmax=30.8% for the nucleus and Pmax=29.6% for the dust coma. The Pmax of the dust coma is consistent with those of dust-rich comets. The low geometric albedo of Pv=0.05 was derived from the slope-albedo relationship and was associated with high Pmax. We examined Pmax-albedo relations between asteroids and 209P, and found that the so-called Umov law seems to be applicable on this cometary surface.