Microwave Spectrum of Ethylene Oxide in Excited Vibrational States

Abstract

In the rotational spectrum of ethylene oxide, the five lowest-lying vibrational states are assigned and the vibration-rotation constants and the centrifugal distortion constants are derived. The vibrational frequencies are estimated from relative intensity measurements at ν_a=803±18 cm⁻¹ and ν_b=814±23 cm⁻¹ for the antisymmetric species (with respect to the C₂ operation) and at ν_c=872±34 cm⁻¹, ν_d=1020±33 cm⁻¹, and ν_e=1109±42 cm⁻¹ for the symmetric species. The intensity measurements of the remaining spectral lines showed that these lines belong to vibrational states at frequencies above about 1000 cm⁻¹. The ν_a, ν_b, and ν_c states are tentatively assigned to ν₁₅, ν₁₂, and ν₅, respectively, by taking into account the Goriolis interactions.