Raman study of molecular reorientation in liquid chloroform and chloroform-d under high pressure

Abstract

The molecular reorientation in liquid chloroform and chloroform‐d has been studied as a function of temperature and pressure by analysis of the Raman line shapes for the ν₁(A₁) C–H and C–D stretching modes at 3020 and 2256 cm⁻¹, respectively. The measurements cover the temperature range 303–363 °K and the pressure range 0.03–4.5 kbar. Analysis of the Raman bands yields the reorientational correlation times τ_ϑ, and the reorientational correlation functions under isobaric, isothermal, and isochoric conditions. The τ_ϑ’s show a good agreement with the correlation times obtained from NMR relaxation measurements. The results on rotational second moments M_R(2) provide experimental evidence that the rotational second moments are density dependent. In addition, the experiments indicate that collisional induced scattering contributes in a major way to the observed M_R(2). Comments on the different peak positions for the I_VV and I_VH bands are also included.