2024-03-28T20:44:14Zhttp://digital.csic.es/dspace-oai/requestoai:digital.csic.es:10261/812542018-06-19T11:39:07Zcom_10261_135com_10261_4col_10261_388
Bermejo, Dionisio
Di Lonardo, G.
Doménech, José Luis
Fusina, L.
2013-09-02T10:40:20Z
2013-09-02T10:40:20Z
2003
Molecular Physics 101: 3203- 3212 (2003)
http://hdl.handle.net/10261/81254
10.1080/00268970310001625000
The Q branch of the 2ν2 → ν2 band of 13C2D2 has been recorded with an instrumental resolution of about 0.003cm-1 using inverse Raman spectroscopy combined with stimulated Raman pumping in order to populate the ν 2=1 state. A weak local perturbation evident in the spectrum has been attributed to the effect of an anharmonic resonance between the ν 2=2 and ν3=ν4=ν5=1 Σg + states. To study this interaction, the components of the latter vibrational manifold (Σg +, Σg - and Δg), together with all the bending states up to (ν4 +ν5)=2 associated with ν3=1, have been characterized through the analysis of their infrared spectra. Both cold and hot bands from states thermally populated at room temperature, ν4, ν5, 2ν4, 2ν5 and ν4 + ν5, have been recorded in the region between 2300 and 3000cm-1 at an effective resolution of about 0.009cm-1. A simultaneous analysis of all the assigned transitions has been performed on the basis of a theoretical model which takes into account the rotational and vibrational ℓ-type resonances within each vibrational manifold, the Darling-Dennison anharmonic resonance between the ν3 + 2ν4 and ν3 + 2ν5 states, and the anharmonic interaction between the 2ν2 and ν3 + ν4 + ν5 states.
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Anharmonic resonance interactions in the bending manifold associated with ν3 in 13C2D2 studied by high-resolution infrared and Raman spectroscopy
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