Expertise in Research and Complementarity
The Toulouse team is strongly involved in the study of the physics and
chemistry of interstellar matter: gas, dust and their interaction. The
team provides an instrumental contribution to ESA space projects (LWS
spectrometer on board the Infrared Space Observatory, HIFI high
resolution spectrometer on board Herschel). The team has also developed
an original experimental set-up, PIRENEA for the study of the
photophysics and chemistry of large molecules such as Polycyclic
Aromatic Hydrocarbons (PAHs) in physical conditions approaching those of
interstellar space. Dr C. Joblin (CJ) has wide experience in the study
of interstellar PAHs using a multidisciplinary approach that combines
observations and laboratory experiments. During her doctorate and
postdoctorate, she worked with the two international leading groups in
the field (A. Léger, L. Allamandola). She has since 1995 a CNRS
position in Toulouse where she has developed the PIRENEA experiment.
Dr E. Caux (EC), CNRS researcher at the CESR for 15 years, has been
strongly involved in the spectroscopy of interstellar gas from ground
or space-based observations. He was a Co-I of the ISO Long Wavelength
Spectrometer. He is presently the French Co-PI of the Herschel HIFI
instrument and scientific leader of the HIFI High Resolution
Spectrometer (HRS). Pr A. Walters (AW) is a spectroscopist and Professor
at the University Paul Sabatier in Toulouse. He recently joined the
team to lead the CASSIS project to develop tools for the scientific
analysis of complex spectra measured at very high resolution in the
far-infrared and sub-millimetre spectral ranges.
Expertise in Training and Knowledge Transfer
The team in Toulouse contains a large interdisciplinary component both
in its activities and the background of the involved researchers in the
fields of astronomy, physics and chemistry. The activities are largely
shared with engineers who provide support for the computational
activities and the experimental ones (PIRENEA). The team has therefore
sufficient resources for the training of young researchers. The PIRENEA
set-up is unique in some aspects and enables to run experiments in
chemistry that are complementary to the ones led for instance by the
Rennes team (eg., long timescales, generation of
photofragments such as dehydrogenated PAHs). The team is also active in
developing webtools. Finally, several members are highly experienced in
the training and education of University students. All researchers are
involved in the training of graduate students. Over the past four
years, CJ has supervised 3 PhD students (1F, 2M), of whom 1 has
graduated and 2 are current students. EC has supervised 7 PhD students
(3F, 4M), of whom 3 has graduated and 4 are current students. AW has
supervised 2 doctoral students (1F,1M) now graduated.
Involvement of Key Scientific Staff.
| Name | Position | M/F | Expertise |
| C. Joblin | Research Scientist | F | PAH studies laboratory/observations |
| M. Rapacioli | PhD student | M | PAH studies theory/observations |
| E. Caux | Research Scientist | M | Simulated spectra/databases |
| A. Walters | Senior Lecturer | M | Gas spectroscopy/Web interface |
| A. Klotz | Lecturer | M | Web interface |
| B. Parise | PhD | F | Gas spectroscopy, simulated spectra |
Significant References
1. The profile of the aromatic infrared bands explained with molecular
carriers C. Pech, C. Joblin and P. Boissel, A& A . 388, 639-651
(2002).
2. Detection of doubly-deuterated methanol in the solar-type protostar
IRAS 16293-2422, B. Parise, C. Ceccarelli, A.G.G.M., Tielens, E.
Herbst, B. Lefloch, E. Caux, A. Castets, I. Mukhopadhyay, L. Pagani,
L. Loinard, A& A, 393, L49-L53 (2002).