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NORMAN C. CRAIG, KEITH A. HANSON, RICHARD W. PIERCE AND SCOTT D. SAYLOR, Department of Chemistry, Oberlin College, Oberlin, OH 44074; ROBERT L. SAMS, EMSL, Pacific Northwest National Laboratory, Richland, WA 99352.
Butadiene- trans,trans -1,4- d 2 and - cis,cis -1,4- d 2 were prepared from trans,trans -1,4-dichlorobutadiene. Gas-phase spectra were recorded at 0.002 cm-1 resolution in the mid-infrared region on a Bruker IFS 120HR FT spectrometer at PNNL. For the trans,trans isotopomer the C-type band at 1002.553 cm-1, which was not perturbed near the band center, was more fully analyzed than another C-type band at 825.5 cm-1, which was extensively perturbed. Ground state rotational constants for this near-symmetric top (
= -0.9810) were fit to 1828 ground state combination differences (GSCDs) derived from the two bands. A, B and C rotational constants for the ground state are 1.3397796(7), 0.1306985(2), and 0.1191086(3) cm-1, respectively. For the cis,cis isotopomer the C-type band at 808.367 cm-1 was analyzed. Fitting 1559 GSCDs gave
= -0.9707 and 1.1398737(6), 0.1380156(3), and 0.1231302(3) cm-1 for A, B and C , respectively. These rotational constants along with those of other deuterium and 13C isotopomers will be used to determine a complete equilibrium rotational structure of butadiene.