Prof Patrick Roche

A search for the 10-micron silicate feature in periodic Comet Grigg-Skjellerup

\aj 89 (1984) 170-170

Authors:

M Hanner, D Aitken, P Roche, B Whitmore

Abstract:

A 10-micron spectrum of periodic Comet Grigg-Skjellerup was obtained on 22 June 1982 with the UCL array spectrometer at the United Kingdom Infrared Telescope, Mauna Kea. No emission feature is obvious in the spectrum. The observed spectrum can be fit equally well by a model of small hot absorbing grains or by a composite model with less than or equal to 30 percent (3sigma) warm, ’dirty’ silicate grains. The latter model is consistent with the silicate abundance in Comet Kohoutek, which did display an emission feature at 10 microns.

Infrared Spectroscopy of Late Type Stars

Astrophysics and Space Science Library Springer Nature 108 (1984) 309-330

Infrared Spectroscopy of Evolved Objects

Chapter in Galactic and Extragalactic Infrared Spectroscopy, Springer Nature 108 (1984) 331-348

Authors:

David K Aitken, Patrick F Roche

8-13 micron spectrophotometry of galaxies. III - The silicate absorption in Markarian 231

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 205 (1983) 21P-26P-21P-26P

Authors:

PF Roche, DK Aitken, B Whitmore

Abstract:

Spectrophotometry at 8 - 13 μm of Mkn 231 confirms that the 10 μm minimum is due to large columns of silicate dust in the line-of-sight to the nucleus. Fits to the detailed spectral shape demonstrate that the cool absorbing grains are at the emission (z = 0.042) rather than the absorption (z \equiv 0.025) redshift and are located within the nuclear region.

The unique cometary nebula Parsamian 13

Astrophysical Journal 273 (1983) 624-632-624-632

Authors:

M Cohen, DK Aitken, PF Roche, PM Williams

Abstract:

Parsamian 13 is found to be a cometary nebula, with a deeply embedded star suffering strong absorption by silicate grains. A feature near 2.7 microns, attributed to absorption by terminal OH groups, may represent the first detection in an astrophysical environment of water ice grains diluted by another molecule, for example by CO. The bolometric luminosity suggests that this star is either an extremely young T Tauri star or an evolved low-mass star, now a red giant, high on its convective track. Most unusual is the presence of cold (50 K) TiO gas in sufficient abundance to show in absorption in the optical and very near-infrared regions; this material probably represents very recently expelled photospheric layers.