Time-dependent quantum study of H(2S) + FO(2n) OH(2n) + F(2P) reaction on the 1 3A' and 13A''states
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info:eu-repo/semantics/closedAccess
Özet
The dynamics of the H(2S) + FO(2?) ? OH( 2?) + F(2P) reaction on the adiabatic potential energy surface of the 13A? and 13A? states is investigated. The initial state selected reaction probabilities for total angular momentum J = 0 have been calculated by using the quantum mechanical real wave packet method. The integral cross sections and initial state selected reaction rate constants have been obtained from the corresponding J = 0 reaction probabilities by means of the simple J-Shifting technique. The initial state-selected reaction probabilities and reaction cross section do not manifest any sharp oscillations and the initial state selected reaction rate constants are sensitive to the temperature. © 2010 Wiley Periodicals, Inc.
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Anahtar Kelimeler
cross sections, quantum wavepacket study, rate constant, reaction probabilities, reactive scattering, Adiabatic potential energy surface, Cross section, Initial state, Integral cross-sections, Quantum mechanical, Quantum study, Quantum wave packets, Reaction cross-sections, Reaction probability, Reactive scattering, Time-dependent, Wave-packet method, Light scattering, Probability, Quantum chemistry, Wave packets, Rate constants, fluoride, hydrogen sulfide, hydroxyl radical, oxygen, article, chemistry, molecular dynamics, quantum theory, time, Fluorides, Hydrogen Sulfide, Hydroxyl Radical, Molecular Dynamics Simulation, Oxygen, Quantum Theory, Time Factors
Kaynak
Journal of Computational Chemistry
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31
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14
