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    Please use this identifier to cite or link to this item: http://utaipeir.lib.utaipei.edu.tw/dspace/handle/987654321/2653


    Title: Rotationally resolved spectra of transitions involving motion of the methyl group of acetaldehyde in the system  1A″− 1A′
    Authors: YUNG-CHING CHOU
    CHENG-LIANG HUANG
    I-CHIA CHEN
    CHI-KUNG NI
    A. H. KUNG
    周永慶
    倪其焜
    陳益佳
    黃正良
    Contributors: 臺北市立教育大學自然科學系
    Keywords: organic compounds
    rotational states
    fluorescence
    vibrational states
    librational states
    Date: 2001
    Issue Date: 2009-07-31 16:04:16 (UTC+8)
    Abstract: Fluorescence excitation spectra, at resolution 0.02 cm-1, in the system A~ 1A''-X~ 1A' were recorded for acetaldehyde in a supersonic jet. We performed full rotational analysis of bands 1400+150n and 1400-150n, for n=0-4, in which 140+ and 140- denote the two inversion tunneling components of the aldehyde hydrogen out of plane bending, in the vibrational ground state of A~ 1A''. Torsional levels from near the methyl torsional barrier to beyond that barrier are assigned. Sublevels of torsional symmetry A below the barrier are fitted as an asymmetric rotor, but the resulting values of the rotational parameter A are affected significantly by the torsional motion. For the E sublevels, K doublet states split significantly with torsional quantum number vt. Anomalous transitions (ΔKa=0, ΔKc=0) to A sublevels are observed for bands 1400+1504 and 1400-1503, which cannot be simply explained from the Coriolis-type interaction of torsion and rotation. The positions of A and E sublevels in 140-15n cannot be fitted with a program involving only interaction of torsion and rotation, because for n=0-2 states the A/E splitting is reversed from those in 140+15n. Interaction with inversion evidently varies the splitting of torsional sublevels and the K structure.
    Relation: Journal of Chemical Physics, V115(11), p.5089-5100
    Appears in Collections:[Department of Applied Physics and Chemistry] Periodical Articles

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