Abstract
The Raman spectrum of CO(2) from room temperature to 1800 K has been measured in a series of experiments. The differential Raman scattering cross-sections for the fundamental bands at 1285.41 cm(-1) and 1388.18 cm(-1) have been obtained from reference bands of H(2) and N(2) as intensity standards. The Raman cross-sections of CO(2) hot bands, involving vibrational energy levels up to 5000 cm(-1), were derived from those of the fundamental bands. The Raman cross-sections obtained this way were reduced to transition moments of the mean molecular polarizability, which make it possible to simulate the Raman spectrum of CO(2) up to 2000 K. This paves the way for local or remote diagnostics of CO(2) in hot environments using Raman based techniques.