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MO: Fachverband Molekülphysik

MO 2: Collisions, Energy Transfer

MO 2.1: Vortrag

Montag, 8. März 2010, 14:00–14:15, F 142

Stereodynamics of O(³P) + H₂ at E_rel = 0.5 - 1.0 eV — •Victor Wei-Keh Wu — Victor Basic Research Laboratory e.V. Gadderbaumer-Str. 22, D-33602 Bielefeld, Germany — Department of Chemical and Materials Engineering, National Kaohsiung University of Applied Sciences, 80782 Kaohsiung, Taiwan

QCT calculation of O(³P) + H₂ at E_rel = 0.5, 0.75 and 1.0 eV on the lowest electronically adiabatic PES 1 ³A" (GLDP) of Kuppermann et al. has been done. Distr. P(ϑ_r) of polar angles between the rel. velocity k of the reactant and rotational angular momentum vector j′ of the product, distr. P(ϕ_r) of azimuthal as well as dihedral angles correlating k−k′−j′, 3-dim. distr. P(ϑ_r, ϕ_r), and PDDCSs (polarization-dependent differential cross sections) dependent upon the scattering angle ϑ_t between the rel. velocity k of the reactant and k′ of OH at three energies are presented and discussed. OH with the rotational angular momentum vector j′ preferentially aligned perpendicularly to k. The smaller the relative scattering energy of the two reactants is, the stronger is the alignment of OH at ϑ_r = 90^o. Distr. P(ϕ_r) becomes sharper when the scattering energy decreases. The (2π/σ)(dσ₀₀/dω_t) showed that most of OH are scattered into the backward hemisphere ϑ_t≥90^o. Distr. P(ϕ_r) becomes sharper when E_rel decreases, and OH are scattered at ϑ_r=90^o and ϕ_r=271^o. Curve (2π/σ)(dσ₀₂/dω_t) dependent upon ϑ_t, which is proportional to the alignment moment ⟨ P_k(cosϑ_t)⟩, shows that j′ of the scattered OH becomes stronger and stronger aligned when the collision energy decreases. Financial aids from group 1101 of DICP, CAS, and VBR are acknowledged.