Journal
CHINESE JOURNAL OF CHEMICAL PHYSICS
Volume 28, Issue 4, Pages 396-402Publisher
CHINESE PHYSICAL SOC
DOI: 10.1063/1674-0068/28/cjcp1506138
Keywords
Photodissociation; D2O; Vibrationally excited state; Conical intersection; Quantum dynamics
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Funding
- National Natural Science Foundation of China [21133006, 21273104, 91221301]
- Ministry of Science and Technology [2013CB834601]
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The state-to-state photodissociassion dynamics for the B band of D2O have been explored from quantum dynamical calculations including the electronic (X) over tilde and (B) over tilde states. The calculations were carried out using a Chebyshev real wave packet method. The calculated absorption spectra, product state distributions, and branching ratios from different initial vibrational states show different dynamic features, due to the different shapes of the vibrational wavefunctions. The initial bending mode (0,1,0) generates two lobes with a shallow minimum on the absorption spectrum and a slight inverted vibrational population of OD((X) over tilde) product at high total energies. The rotational state distributions of OD ((X) over tilde, v=0) product are highly inverted and depend weakly on the initial state and total energy. On the other hand, the ro-vibrational distributions of OD((A) over tilde) product strongly oscillate with the total energy, which are dominated by the long-living resonances and depend sensitively on the potential surfaces. The antisymmetric stretching mode (0,0,1) has large OD((A) over tilde)/OD((X) over tilde) branching ratios at high total energies, which indicates that the B band dissociation proceeds mainly via the adiabatic pathway in some cases.
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