Xueming Yang scite author profile

Photodissociation dynamics of H 2 O at 121.6 nm have been studied using the H atom Rydberg ''tagging'' time-of-flight technique and by quasiclassical trajectory ͑QCT͒ calculations. Product kinetic energy distributions and angular distributions have been measured. From these distributions, rovibronic distributions of the OH radical product as well as the state resolved angular anisotropy parameters were determined. The dissociation energy D 0 0 ͑H-OH͒ is determined to be 41151 Ϯ5 cm Ϫ1 . Two clear alternations in the OH(X,vϭ0) rotational distribution have been observed, with each alternation corresponding to an oscillation in the anisotropy distribution. These oscillations had been attributed to the dynamical interference between the two conical intersection pathways. Further theoretical modeling in this work strongly supports this argument. Very highly vibrationally excited OH(X) products ͑up to vϭ9͒ have also been observed. These are ascribed to interconversion of H-O-H bending ͑H-H vibration͒ and O-H vibration in O-H-H geometries. The effect of parent rotational excitation on the OH(A) product state distribution and anisotropy distribution was observed for the first time. Experimental results also show clear evidence for the triple dissociation channel, O( 3 P)ϩ2H. Accurate branching ratios of different product channels have been determined. Results of detailed QCT calculations agree well with the experimental results in this work.

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A modified particle swarm optimizer with dynamic adaptation

Yang

Yuan

et al. 2007

Applied Mathematics and Computation

290

130

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Performance of the vacuum ultraviolet high-resolution and high-flux beamline for chemical dynamics studies at the Advanced Light Source

et al. 1997

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At the Advanced Light Source an undulator beamline, with an energy range from 6 to 30 eV, has been constructed for chemical dynamics experiments. The higher harmonics of the undulator are suppressed by a novel, windowless gas filter. In one branchline high-flux, 2% bandwidth radiation is directed toward an end station for photodissociation and crossed molecular-beam experiments. A photon flux of 10 16 photon/s has been measured at this end station. In a second branchline a 6.65 m off-plane Eagle monochromator delivers narrow bandwidth radiation to an end station for photoionoization studies. At this second end station a peak flux of 3 ϫ 10 11 was observed for 25 000 resolving power. This monochromator has achieved a resolving power of 70 000 using a 4800 grooves/mm grating, one of the highest resolving powers obtained by a vacuum ultraviolet monochromator.

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Xueming Yang

Photodissociation of H2O at 121.6 nm: A state-to-state dynamical picture

A modified particle swarm optimizer with dynamic adaptation

Performance of the vacuum ultraviolet high-resolution and high-flux beamline for chemical dynamics studies at the Advanced Light Source

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