A New Approach toward Transition State Spectroscopy

Bryan M. Wong; David S. Perry; G. Barratt Park; Hua Guo; John F. Stanton; John S. Muenter; Kirill Prozument; Monika A. Ciuba; Rachel Glyn Shaver; Robert W. Field

arxiv: 1312.6345 · v1 · pith:IML34B22new · submitted 2013-12-22 · ⚛️ physics.chem-ph · physics.atm-clus· physics.optics

A New Approach toward Transition State Spectroscopy

Kirill Prozument , Rachel Glyn Shaver , Monika A. Ciuba , John S. Muenter , G. Barratt Park , John F. Stanton , Hua Guo , Bryan M. Wong

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David S. Perry Robert W. Field

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classification ⚛️ physics.chem-ph physics.atm-clusphysics.optics

keywords rotationalvinylidenecpmmwdiscussedlevelsphotolysispopulationsspectra

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Chirped-Pulse millimetre-Wave (CPmmW) rotational spectroscopy provides a new class of information about photolysis transition state(s). Measured intensities in rotational spectra determine species-isomer-vibrational populations, provided that rotational populations can be thermalized. The formation and detection of S0 vinylidene is discussed in the limits of low and high initial rotational excitation. CPmmW spectra of 193 nm photolysis of Vinyl Cyanide (Acrylonitrile) contain J=0-1 transitions in more than 20 vibrational levels of HCN, HNC, but no transitions in vinylidene or highly excited local-bender vibrational levels of acetylene. Reasons for the non-observation of the vinylidene co-product of HCN are discussed.

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A New Approach toward Transition State Spectroscopy

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