Your search keyword '"Devries CH"' showing total 4 results

1. HCO+ imaging of comet Hale-Bopp (C/1995 O1).

Author

Lovell AJ, Schloerb FP, Dickens JE, DeVries CH, Senay MC, and Irvine WM

Subjects

Astronomy instrumentation, Extraterrestrial Environment, Hydrocarbons chemistry, Ions, Solar System, Spectrum Analysis, Astronomy methods, Meteoroids, Models, Theoretical

Abstract

The HCO+ J = 1-0 rotational transition at 89.189 GHz has been mapped in comet Hale-Bopp (C/1995 O1) over a total of 38 individual days spanning the period 1997 March 10-June 20 with the Five College Radio Astronomy Observatory 14 m antenna. HCO+ is detectable over an extended region of the comet, with the peak emission commonly located 50,000-100,000 km in the antisolar direction. Maps made throughout the apparition show significant variability in the structure of the HCO+ coma, sometimes on timescales of several hours. The HCO+ brightness is usually depressed at the nucleus position, and on some occasions, the emission is spread into a ring around the position of the nucleus. Individual spectra within the maps display broad (approximately 4 km s-1) lines redshifted by 1-2 km s-1 or more from the nominal velocity of the nucleus, with the redshift typically increasing in the antisolar direction. The spectra and maps may be generally explained by models in which the ions are accelerated tailward at a rate on the order of 10 cm s-2, provided that HCO+ is destroyed within 50,000-100,000 km of the nucleus.

Published

1998

2. Hydrogenation of interstellar molecules: a survey for methylenimine (CH2NH).

Author

Dickens JE, Irvine WM, DeVries CH, and Ohishi M

Subjects

Astronomical Phenomena, Astronomy, Cosmic Dust, Hydrogenation, Imines analysis, Extraterrestrial Environment, Gases analysis, Imines chemistry

Abstract

Methylenimine (CH2NH) has been convincingly detected for the first time outside the Galactic center as part of a study of the hydrogenation of interstellar molecules. We have observed transitions from energy levels up to about 100 K above the ground state in the giant molecular clouds W51, Orion KL and G34.3 + 0.15. In addition, CH2NH was found at the " radical-ion peak" on the quiescent ridge of material in the Orion molecular cloud. The abundance ratio CH2NH/HCN at the radical-ion peak agrees with the predictions of recent gas-phase chemical models. This ratio is an order of magnitude higher in the warmer cloud cores, suggesting additional production pathways for CH2NH, probably on interstellar grains.

Published

1997

3. HCO+ in the coma of comet Hale-Bopp.

Author

Lovell AJ, Schloerb FP, Bergin EA, Dickens JE, Devries CH, Senay MC, and Irvine WM

Subjects

Astronomical Phenomena, Extraterrestrial Environment, Ions, Photochemistry, Spectrum Analysis, Astronomy, Hydrocarbons analysis, Meteoroids

Abstract

Maps of comet C/1995 O1 (Hale-Bopp) in the millimeter-wave emission of the ion HCO+ revealed a local minimum near the nucleus position, with a maximum about 100,000 km in the antisolar direction. These observed features of the HCO+ emission require a low abundance of HCO+ due to enhanced destruction in the inner coma of the comet, within a region of low electron temperature (Te). To set constraints on the formation of HCO+ in the coma, as well as the location and magnitude of the transition to higher Te, the data are compared with the results of ion-molecule chemistry models.

Published

1997

4. Collisional quenching of OH radio emission from comet Hale-Bopp.

Author

Schloerb FP, Devries CH, Lovell AJ, Irvine WM, Senay M, and Wootten HA

Subjects

Astronomy instrumentation, Extraterrestrial Environment, Spectrum Analysis, Gases analysis, Hydroxyl Radical analysis, Meteoroids

Abstract

Observations of comets in the 18-cm OH transitions offer a means to probe gas production, kinematics, and OH excitation in comets. We present initial results of OH observations of comet Hale-Bopp obtained with the NRAO 43 m antenna located in Greenbank, WV. Maps of the emission provide strong constraints on the amount of quenching of the inversion of the OH ground state A-doublet in the coma. Analysis of the total radio OH flux and maps of its radial brightness distribution indicate a quenched region on the order of approximately 500,000 km during March and April 1997. This large value is generally consistent with previous observations of radio OH quenching in lower production rate comets when the high production rate of comet Hale-Bopp is considered.

Published

1997