THE HELIOCENTRIC EVOLUTION OF KEY SPECIES IN THE DISTANTLY-ACTIVE COMET C 1995 O1 (HALE-BOPP)/

Comet Hale-Bopp (C/1995 O1) presents the first opportunity to study ph ysical and chemical changes in the coma of a bright, active comet at l arge heliocentric distances with modern millimeter-wavelength spectrom eters. We obtained mm-wave spectra of CH3OH, CO, and H2CO in Hale-Bopp on 29 dates when it was beyond 4 AU. We report the first detection of CH3OH in Hale-Bopp at 5.0 AU. Additionally, we found that CO producti on went through three distinct phases: (i) an initial, rapid increase, (ii) quasi-saturation, and then (iii) a renewed, but less rapid incre ase. The abrupt renewal of the CO production rate increase took place near both the onset of H2O sublimation and the first detections of CH3 OH and HCN, suggesting a causal relationship. Line shape and velocity offset information in our spectra give important clues to the producti on mechanisms of the three species. Linewidths were relatively narrow (similar to 0.3 km s(-1)) for CO and much wider (1-2 km s(-1)) for CH3 OH and H2CO. Line profiles of CO were substantially blueshifted with r espect to the comet's frame of reference by an average of 0.3 km s(-1) , while CH3OH and H2CO emission appeared essentially at rest with resp ect to the comet's frame. Based on these findings, we infer that the C O we observed was produced primarily at the nucleus in jets, rather th an from an extended source, and that the majority of both the CH3OH an d H2CO appear instead to be released as daughter products from the dis sociation of heavier molecules. (C) 1997 American Astronomical Society . [S0004-6256(97)03312-8].