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A remarkable influence of the orientation of a polar side chain on the direction of the S(1) ← S(0) transition dipole moment of monosubstituted benzenes was previously reported from high-resolution electronic spectroscopy. In search for a more general understanding of this non-Condon behavior, we investigated ethylamino-substituted indole and benzene (tryptamine and 2-phenylethylamine) using ab initio theory and compared the results to rotationally resolved laser-induced fluorescence measurements. The interaction of the ethylamino side chain with the benzene chromophore can evoke a rotation and a change of ordering of the molecular orbitals involved in the excitation, leading to state mixing and large changes in the orientation of the excited-state transition dipole moment. These changes are much less pronounced in tryptamine with the indole chromophore, where a rotation of the transition dipole moment is attributed to Rydberg contributions of the nitrogen atom of the chromophore. For phenylethylamine, a strong dependence of the oscillator strengths of the lowest two singlet states from the conformation of the side chain is found, which makes the use of experimental vibronic intensities for assessment of relative conformer stabilities at least questionable. 相似文献
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Lipciuc ML Rakitzis TP Meerts WL Groenenboom GC Janssen MH 《Physical chemistry chemical physics : PCCP》2011,13(18):8549-8559
In this paper we report slice imaging polarization experiments on the state-to-state photodissociation at 42,594 cm(-1) of spatially oriented OCS(v(2) = 1|JlM = 111) → CO(J) + S((1)D(2)). Slice images were measured of the three-dimensional recoil distribution of the S((1)D(2)) photofragment for different polarization geometries of the photolysis and probe laser. The high resolution slice images show well separated velocity rings in the S((1)D(2)) velocity distribution. The velocity rings of the S((1)D(2)) photofragment correlate with individual rotational states of the CO(J) cofragment in the J(CO) = 57-65 region. The angular distribution of the S((1)D(2)) velocity rings are extracted and analyzed using two different polarization models. The first model assumes the nonaxial dynamics evolves after excitation to a single potential energy surface of an oriented OCS(v(2) = 1|JlM = 111) molecule. The second model assumes the excitation is to two potential energy surfaces, and the OCS molecule is randomly oriented. In the high J region (J(CO) = 62-65) it appears that both models fit the polarization very well, in the region J(CO) = 57-61 both models seem to fit the data less well. From the molecular frame alignment moments the m-state distribution of S((1)D(2)) is calculated as a function of the CO(J) channel. A comparison is made with the theoretical m-state distribution calculated from the long-range electrostatic dipole-dipole plus quadrupole interaction model. The S((1)D(2)) photofragment velocity distribution shows a very pronounced strong peak for S((1)D(2)) fragments born in coincidence with CO(J = 61). 相似文献
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The Stark and Zeeman effects in methyl silane in the ground vibronic state have been studied in detail using the molecular-beam electric-resonance method. For a symmetric rotor without internal rotation, the rotational dependence of the effective dipole moment for matrix elements diagonal in J has been shown by Watson, Takami, and Oka to have the form μQ = μ0 + μJJ(J + 1) + μKK2. It is shown here that, to this order, a complete characterization of the Stark effect requires only one more parameter, namely, the effective anisotropy (α| - α⊥)eff in the polarizability. From Stark measurements alone, the true anisotropy cannot be separated from the additional dipole distortion constant shown by Aliev and Mikhaylov to enter dipole matrix elements off-diagonal in J. By studying nine different transitions (J, K, mJ) → (J, K, mJ ± 1) in CH328SiH3, values were obtained for the four Stark parameters: μ0 = 0.7345600(33) D, μJ = 8.83(35) μD, μK = ?32.82(37) μD, and (α| - α⊥)eff = 1.99(16) × 10?24 cm3. These errors reflect only the internal consistency in the data; the absolute error in μ0 is 32 μD. The modification of the Stark effect by internal rotation is discussed; it is shown that the only significant effect here is to modify the interpretation of μ0. The change in μ0 upon isotopic substitution of 30Si for 28Si was determined: . A study of molecular magnetic effects in CH328SiH3 has yielded the two molecular g factors, g⊥ = ?0.036391(21) nm and g| = ?0.10667(13) nm, as well as the anisotropy in the susceptibility . The molecular quadrupole moment has been calculated. 相似文献
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The rotational spectrum of CF in its ground electronic state was studied around 1000 GHz, using a tunable far-infrared source. Seven transitions were observed originating from the 2Π1/2 and 2Π3/2 substates. The hyperfine and Λ-type splittings were resolved. The results were combined with gas-phase electron resonance and infrared diode laser spectra to determine all pertinent molecular constants. 相似文献
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K. Verbiezen R.J.H. Klein-Douwel A.P. van Vliet A.J. Donkerbroek W.L. Meerts N.J. Dam J.J. ter Meulen 《Applied physics. B, Lasers and optics》2006,83(1):155-166
Quantification of the nitric oxide (NO) concentration inside the cylinder of a Diesel engine by means of laser-induced fluorescence
(LIF) measurements requires, amongst others, knowledge of the attenuation of the ultraviolet radiation involved. We present
a number of laser diagnostic techniques to assess this attenuation, enabling a correction for laser intensity and detection
efficiency of the raw NO LIF data. Methods discussed include overall laser beam transmission, bidirectional laser scattering
(bidirectional LIF), spectrally resolved fluorescence imaging, and Raman scattering by N2. A combination of techniques is necessary to obtain the complete attenuation of laser beam and NO fluorescence. The overall
laser beam transmission measurements and bidirectional LIF measurements (the latter yielding spatially resolved transmission)
provide evidence of a non-uniform attenuation distribution, with predominant attenuation within or near the piston bowl. Fluorescence
imaging of multiple vibrational bands through a spectrograph is shown to be a powerful method for obtaining spatially resolved
data on the transmission losses of fluorescence. Special attention is paid to the role of CO2 and O2 as UV light absorbers, and the consequences to different excitation-detection schemes for NO.
PACS 82.33.Vx; 42.62.Fi; 33.20.t 相似文献
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