TY - JOUR
T1 - Vibrational overtone spectra of N-H stretches and intramolecular dynamics on the ground and electronically excited states of methylamine
AU - Marom, Ran
AU - Zecharia, Uzi
AU - Rosenwaks, Salman
AU - Bar, Ilana
N1 - Funding Information:
The authors gratefully acknowledge support by the James Franck Binational German-Israeli Program in Laser-Matter Interaction and, in part, by the Israel Science Foundation founded by The Israel Academy of Science and Humanities. S. R. is the Helen and Stanford Diller Family chair in Chemical Physics.
PY - 2008/4/28
Y1 - 2008/4/28
N2 - The vibrational pattern and energy flow in the N-H stretch manifolds and the dissociation dynamics of methylamine (C H3 N H2) were investigated via vibrationally mediated photodissociation. Action spectra and Doppler profiles, reflecting the yield of the ensuing H photofragments, versus near infrared/visible vibrational excitation and UV excitation, respectively, were measured. The jet-cooled action spectra and the simultaneously measured room temperature photoacoustic spectra of the first to third N-H stretching overtones exhibit broad features, somewhat narrower in the former, consisting of barely recognized multiple bands. Two phases of fitting of the spectroscopic data were performed. In the first phase, the raw data were analyzed to obtain band positions, types, intensities, and transition linewidths. In the second, the information derived from the first phase was then used as data in a fit to joint local mode/normal mode (LM/NM) and NM Hamiltonian parameters. The derived parameters predicted well band positions and allowed band assignment. The LM/NM Hamiltonian and the extracted Lorentzian linewidths enabled the determination of the initial pathways for energy redistribution and the overall temporal behavior of the N-H stretch and doorway states, as a result of Fermi couplings and interactions with bath states. The results indicate a nonstatistical energy flow in the V=2 manifold region, pointing to the dependence of the coupling on specific low order resonances rather than on the total density of bath states. The Doppler profiles suggest lower average translational energies for the released H photofragments, in particular, for V=3 and 4 as compared to V=1 and 2, implying a change in the mechanism for bond cleavage.
AB - The vibrational pattern and energy flow in the N-H stretch manifolds and the dissociation dynamics of methylamine (C H3 N H2) were investigated via vibrationally mediated photodissociation. Action spectra and Doppler profiles, reflecting the yield of the ensuing H photofragments, versus near infrared/visible vibrational excitation and UV excitation, respectively, were measured. The jet-cooled action spectra and the simultaneously measured room temperature photoacoustic spectra of the first to third N-H stretching overtones exhibit broad features, somewhat narrower in the former, consisting of barely recognized multiple bands. Two phases of fitting of the spectroscopic data were performed. In the first phase, the raw data were analyzed to obtain band positions, types, intensities, and transition linewidths. In the second, the information derived from the first phase was then used as data in a fit to joint local mode/normal mode (LM/NM) and NM Hamiltonian parameters. The derived parameters predicted well band positions and allowed band assignment. The LM/NM Hamiltonian and the extracted Lorentzian linewidths enabled the determination of the initial pathways for energy redistribution and the overall temporal behavior of the N-H stretch and doorway states, as a result of Fermi couplings and interactions with bath states. The results indicate a nonstatistical energy flow in the V=2 manifold region, pointing to the dependence of the coupling on specific low order resonances rather than on the total density of bath states. The Doppler profiles suggest lower average translational energies for the released H photofragments, in particular, for V=3 and 4 as compared to V=1 and 2, implying a change in the mechanism for bond cleavage.
UR - http://www.scopus.com/inward/record.url?scp=42449150083&partnerID=8YFLogxK
U2 - 10.1063/1.2907738
DO - 10.1063/1.2907738
M3 - Article
C2 - 18433221
AN - SCOPUS:42449150083
SN - 0021-9606
VL - 128
JO - Journal of Chemical Physics
JF - Journal of Chemical Physics
IS - 15
M1 - 154319
ER -