Multiphoton absorption and decomposition studies of chloroform-d induced by a pulsed 13CO2 laser

Abstract

The multiphoton absorption (MPA) and decomposition (MPD) of chloroform-d induced by various ¹³CO₂ [00°1 → 0°0] lines were studied for pressures from 0.133 to 13.3 kPa. MPA results show a cross-section increasing with pressure up to a plateau value which is likely due to rotational hole-filling. A MPA "spectrum" of the average number of photons absorbed versus wavenumber for different ¹³CO₂ laser lines is shifted to lower wavenumbers compared to the small signal absorption spectrum by at least 5 cm⁻¹ suggesting that a small amount of anharmonicity bottle-necking is occurring in CDCl₃. A comparison of the MPD probability versus fluence for CDCl₃ with that measured by other workers for fluoroform indicates that the CDCl₃ is decomposed at a slightly lower fluence by an appropriate line of a pulsed CO₂ laser.For the pressure range (0.2 to 4.0 kPa) and laser pulse-width used, the MPD is second order in CDCl₃. The primary decomposition channel is elimination of DCl followed by reaction of CCl₂ to give C₂Cl₂, C₂Cl₄, and Cl₂. The DCl produced exchanges with a source of H₂O in the reaction cell to give significant quantities of HCl. A post-pulse reaction between (HCl + DCl) and C₂Cl₂. produces (C₂DCl₃ + C₂HCl₃). Significant quantities of CCl₄ are also produced by undetermined reactions.