2004
DOI: 10.1063/1.1701618
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Jet-cooled laser spectroscopy of the cyclohexoxy radical

Abstract: The laser-induced fluorescence and laser-excited dispersed fluorescence spectra of the cyclohexoxy radical has been observed under two sets of free-jet-cooling conditions, characterized by rotational temperatures of approximately 1 and 100 K. Although five conformers of cyclohexoxy are possible, it appears that all presently observed spectral bands can be accounted for by a single one. All cold spectral bands are assigned to the B-X electronic transition of the cyclohexoxy radical. Transitions to both a' and a… Show more

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Cited by 28 publications
(103 citation statements)
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“…The averaged experimental value of theà −X separation of ethoxy from the photoelectron spectroscopy 17 (20) GHz, |ε ab +ε ba |/2 = 2.65(130) GHz] are adopted from the previous experimental work, 18 the ab initio calculated geometries of ethoxy and isopropoxy are used to derive the momenta of inertial tensor of these two molecules and the unitary transformation matrices U e and U ip . The predicted values are listed in the third column of Table I and compared with the experimental values.…”
Section: Appendix A: Determination Of the Spin-rotation Tensormentioning
confidence: 99%
See 1 more Smart Citation
“…The averaged experimental value of theà −X separation of ethoxy from the photoelectron spectroscopy 17 (20) GHz, |ε ab +ε ba |/2 = 2.65(130) GHz] are adopted from the previous experimental work, 18 the ab initio calculated geometries of ethoxy and isopropoxy are used to derive the momenta of inertial tensor of these two molecules and the unitary transformation matrices U e and U ip . The predicted values are listed in the third column of Table I and compared with the experimental values.…”
Section: Appendix A: Determination Of the Spin-rotation Tensormentioning
confidence: 99%
“…Theà −X separations (T 00 ) of the secondary alkoxies 7 and cyclohexoxy 20 were found in DF spectroscopy (also in LIF spectroscopy in the case of cyclohexoxy 20 ) to be smaller than the primary ones (usually <100 cm −1 ). In particular, T 00 was determined to be 68(10) cm −1 for isopropoxy 7 and a more recent determination 21 with higher precision places it at 60.8(1.0) cm −1 .…”
Section: Introductionmentioning
confidence: 99%
“…This has been observed in DF spectra of all primary and secondary chain alkoxy radicals 25 as well as cyclohexoxy, 7 which was attributed to the large FCFs for such transitions because of the large difference in X/A-and B-state CO bond lengths (ΔR CO ∼ 0.2 Å). When other vibronic bands in the LIF spectra were pumped, DF transitions to the groundstate vibrational level of the same vibrational mode as the pumped band were observed because of large FCFs of such transitions.…”
Section: Discussionmentioning
confidence: 91%
“…24,33 The lowest three electronic states X, Ã, and B̃ of alkoxy radicals are well defined in the literature. 26,32,34,35 Its two lowest electronic states can be separated by as low as 61 cm −1 .…”
Section: Alkoxy Radicalsmentioning
confidence: 99%
“…(28598 cm −1 ), B0 (28821 cm −1 ), and C (29058 cm −1 ) are assigned to the origin bands, The cause of the red-shift in the DF spectra within each group has been discussed in our previous publications. 35,93,96 In brief, the large change in the CO bond length upon the B̃ Nevertheless, we assign the A Bands in the experimental LIF spectrum to this conformer based on two facts. First, the calculated (and scaled) origin transition of the GG' conformer matches the frequency of the A0 band.…”
Section: Overview Of Lif and Df Spectramentioning
confidence: 99%