Kurt M. Johnson scite author profile

Kurt M. Johnson

3Publications

85Citation Statements Received

142Citation Statements Given

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128

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Texas A&M University

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Ion Imaging Study of NO₃Radical Photodissociation Dynamics: Characterization of Multiple Reaction Pathways

et al. 2011

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The photodissociation of NO(3) has been studied using velocity map ion imaging. Measurements of the NO(2) + O channel reveal statistical branching ratios of the O((3)P(J)) fine-structure states, isotropic angular distributions, and low product translational energy consistent with barrierless dissociation along the ground state potential surface. There is clear evidence for two distinct pathways to the formation of NO + O(2) products. The dominant pathway (>70% yield) is characterized by vibrationally excited O(2)((3)Σ(g)(-), v = 5-10) and rotationally cold NO((2)Π), while the second pathway is characterized by O(2)((3)Σ(g)(-), v = 0-4) and rotationally hotter NO((2)Π) fragments. We speculate the first pathway has many similarities to the "roaming" dynamics recently implicated in several systems. The rotational angular momentum of the molecular fragments is positively correlated for this channel, suggesting geometric constraints in the dissociation. The second pathway results in almost exclusive formation of NO((2)Π, v = 0). Although product state correlations support dissociation via an as yet unidentified three-center transition state, theoretical confirmation is needed.

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A method for the determination of speed-dependent semi-classical vector correlations from sliced image anisotropies

Grubb

Warter

Freeman

et al. 2011

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We present analytical expressions relating the bipolar moment β(Q)(K)(k(1)k(2)) parameters of Dixon to the measured anisotropy parameters of different pump/probe geometry sliced ion images. In the semi-classical limit, when there is no significant coherent contribution from multiple excited states to fragment angular momentum polarization, the anisotropy of the images alone is sufficient to extract the β(Q)(K)(k(1)k(2)) parameters with no need to reference relative image intensities. The analysis of sliced images is advantageous since the anisotropy can be directly obtained from the image at any radius without the need for 3D-deconvolution, which is not applicable for most pump/probe geometries. This method is therefore ideally suited for systems which result in a broad distribution of fragment velocities. The bipolar moment parameters are obtained for NO(2) dissociation at 355 nm using these equations, and are compared to the bipolar moment parameters obtained from a proven iterative fitting technique for crushed ion images. Additionally, the utility of these equations in extracting speed-dependent bipolar moments is demonstrated on the recently investigated NO(3) system.

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Erratum: “A method for the determination of speed-dependent semi-classical vector correlations from sliced image anisotropies” [J. Chem. Phys. 135, 094201 (2011)]

Grubb

Warter

Freeman

et al. 2012

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Kurt M. Johnson

Ion Imaging Study of NO₃Radical Photodissociation Dynamics: Characterization of Multiple Reaction Pathways

A method for the determination of speed-dependent semi-classical vector correlations from sliced image anisotropies

Erratum: “A method for the determination of speed-dependent semi-classical vector correlations from sliced image anisotropies” [J. Chem. Phys. 135, 094201 (2011)]

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Kurt M. Johnson

Ion Imaging Study of NO3Radical Photodissociation Dynamics: Characterization of Multiple Reaction Pathways

A method for the determination of speed-dependent semi-classical vector correlations from sliced image anisotropies

Erratum: “A method for the determination of speed-dependent semi-classical vector correlations from sliced image anisotropies” [J. Chem. Phys. 135, 094201 (2011)]

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Ion Imaging Study of NO₃Radical Photodissociation Dynamics: Characterization of Multiple Reaction Pathways