activities
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| - | ** * Spectroscopy** | + | The main part of the activities are related to laboratory astrophysics in order to provide molecular data on **polycyclic aromatic hydrocarbons (PAHs)** and related species **of astrophysical interest**, as well as tools to analyze astronomical data. |
| + | More specifically, we cover the following topics: | ||
| - | - Evolution of the IR spectra with temperature | + | ** * Spectroscopy** |
| - | - UV/visible action spectra | + | - Evolution of infrared spectra with temperature. Simulations of the astronomical Aromatic IR Bands. |
| + | |||
| + | - UV/visible spectroscopy. Link with the interstellar extinction curve. | ||
| ** * Photophysics in isolated environments** | ** * Photophysics in isolated environments** | ||
| - | - UV-VUV photodissociation and photoionization | + | - UV-VUV photodissociation and photoionization. |
| - | - Competition with radiative cooling | + | - Competition with radiative cooling. |
| + | |||
| + | - Model of the evolution of PAHs in astrophysical environments. | ||
| ** * Mass spectrometry analysis** | ** * Mass spectrometry analysis** | ||
| - | - Characterization of the molecular content of cosmic dust analogues and meteoritic samples | + | - Characterization of the molecular content of cosmic dust analogues and meteoritic samples. |
| + | |||
| + | 8-O **//These activities were supported by the Nanocosmos ERC Synergy project (G.A. 610256) and CNES (ID 5830).//** 8-O | ||
activities.1627297346.txt.gz · Last modified: 2021/07/26 11:02 by cjoblin
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