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A multi-wavelength study of parent volatile abundances in Comet C/2006 M4 (SWAN)
Authors:Michael A. DiSanti  Geronimo L. Villanueva  Stefanie N. Milam  Boncho P. Bonev  Michael J. Mumma  William M. Anderson
Affiliation:a Solar System Exploration Division, NASA Goddard Space Flight Center, Greenbelt, MD 20771, United States
b Department of Physics, The Catholic University of America, Washington, DC 20064, United States
c SETI Institute and NASA-Ames Research Center, Moffett Field, CA 94035, United States
d Department of Chemistry, Department of Astronomy, University of Arizona, Tucson, AZ 85721, United States
Abstract:Volatile organic emissions were detected post-perihelion in the long-period Comet C/2006 M4 (SWAN) in October and November 2006. Our study combines target-of-opportunity infrared observations using the Cryogenic Echelle Spectrometer (CSHELL) at the NASA-IRTF 3-m telescope, and millimeter wavelength observations using the Arizona Radio Observatory (ARO) 12-m telescope. Five parent volatiles were measured with CSHELL (H2O, CO, CH3OH, CH4, and C2H6), and two additional species (HCN and CS) were measured with the ARO 12-m. These revealed highly depleted CO and somewhat enriched CH3OH compared with abundances observed in the dominant group of long-period (Oort cloud) comets in our sample and similar to those observed recently in Comet 8P/Tuttle. This may indicate highly efficient H-atom addition to CO at very low temperature (∼10-20 K) on the surfaces of interstellar (pre-cometary) grains. Comet C/2006 M4 had nearly “normal” C2H6 and CH4, suggesting a processing history similar to that experienced by the dominant group. When compared with estimated water production at the time of the millimeter observations, HCN was slightly depleted compared with the normal abundance in comets based on IR observations but was consistent with the majority of values from the millimeter. The ratio CS/HCN in C/2006 M4 was within the range measured in ten comets at millimeter wavelengths. The higher apparent H-atom conversion efficiency compared with most comets may indicate that the icy grains incorporated into C/2006 M4 were exposed to higher H-atom densities, or alternatively to similar densities but for a longer period of time.
Keywords:Comets, Composition   Comets, Origin
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