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    Ultraviolet photochemistry of ethane: implications for the atmospheric chemistry of the gas giants
    Chemical Science (2020)
    Yao ChangJiayue YangZhichao ChenZhiguo ZhangYong YuQingming LiZhigang HeWeiqing ZhangGuorong WuRebecca A. IngleMatthew BainMichael N. R. AshfoldKaijun YuanXueming YangChristopher S. Hansen
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    Abstract:
    The vacuum ultraviolet photodissociation dynamics of ethane provide clues for modelling the atmospheric chemistry of the gas giants.
    Keywords:
    Ultraviolet
    Atmospheric chemistry
    Vacuum ultraviolet
    Topics:
    Atmospheric Ozone and Climate
    Spectroscopy and Laser Applications
    Atmospheric and Environmental Gas Dynamics
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    Rotationally resolved photofragment alignment and the vacuum ultraviolet photodissociation of H2O
    Chemical Physics Letters (1983)
    J. P. SimonsA. J. Smith
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    NO fluorescence during vacuum-ultraviolet photodissociation of CFCl2NO
    Journal of the Chemical Society Faraday Transactions 2 Molecular and Chemical Physics (1983)
    Christopher Johnson
    Gas-phase photodissociation of CFCl2NO at 147 nm results in the formation of electronically excited NO in the B2Π state, giving rise to the well known NO β-emission bands. Collisional effects consequent upon the addition of helium lead to the appearance of fluorescence from the NO(A2∑+) state with emission from the ν′= 2 and 3 levels dominating the spectrum. The results are compared with data obtained previously for other nitrosocompounds.
    Vacuum ultraviolet
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    Citations (2)