The complex refractive index .cxa.n(.sigma.,T,.rho.) of NO2/N2O4 in the visible and static dipole polarizability of N2O4

Abstract: Dispersive Fourier transform spectroscopy in the visible (DFTS-VIS) is used to study the complex refractive index A of equilibrium mixtures of N O D 2 0 4 in the gas phase between 290 and 350 K and in the wavenumber range between 11 000 and 19 000 cm-'. With the aid of quantum-chemical MBPTMP2 calculations of the components of the static dipole polarizability tensor of N2O4, the quasi-continuous spectra of the complex mean dipole polarizability = a -ia' of the neat components NO2 and N204 are obtained. On the … Show more

“…The interferometric experiments are performed with an evacuated Michelson twin interferometer, which has been used before for the determination of the electrooptical properties of NO 2 /N 2 O 4 , Zn, Cd, and Hg . We measured the complex refractive index n̂ (σ, p , T ) = n (σ) − ia (σ)/(4πσ) (σ = 1/λ = wavenumber, a (σ) = absorption coefficient of Lambert−Beer's law) at three discrete wavenumbers σ 1 = 15 798.0 cm -1 , σ 2 = 16 832.3 cm -1 , and σ 3 = 30 756.9 cm -1 , using laser as radiation sources.…”

Electrooptical Properties and Molecular Polarization of Iodine, I₂

“…The interferometric experiments are performed with an evacuated Michelson twin interferometer, which has been used before for the determination of the electrooptical properties of NO 2 /N 2 O 4 , Zn, Cd, and Hg . We measured the complex refractive index n̂ (σ, p , T ) = n (σ) − ia (σ)/(4πσ) (σ = 1/λ = wavenumber, a (σ) = absorption coefficient of Lambert−Beer's law) at three discrete wavenumbers σ 1 = 15 798.0 cm -1 , σ 2 = 16 832.3 cm -1 , and σ 3 = 30 756.9 cm -1 , using laser as radiation sources.…”

Electrooptical Properties and Molecular Polarization of Iodine, I₂

“…This relative spectrum is fixed to the refractivities measured at λ 1 and λ 2 . More details of the experimental procedure can be found in ref , where we have examined the complex refractive index of NO 2 /N 2 O 4 and in refs and , where the dipole polarizability of Cd has been obtained by interferometric high-temperature measurements.…”

“…The measurements of [ n (λ,ρ) − 1] were performed at three different wavelengths between 632.99 and 325.13 nm using a traditional interferometric technique. Additionally, we have recorded quasi-continuous refractive index spectra of Hg vapor via dispersive Fourier transform spectroscopy (DFTS) , in the visible wavenumber range.…”

Dipole Polarizability, Cauchy Moments, and Related Properties of Hg

“…The calculation of the dipole polarizability of butadiene in this paper relies on the finite-field method . More detailed descriptions of our method and emphasis on the computational aspects may be found in previous work. − The energy of an uncharged molecule in a homogeneous electric field can be written as , where E 0 is the energy of the unperturbed molecule, F α the field at the origin, and μ α , α αβ , β αβγ , and γ αβγδ the dipole moment, polarizability, and dipole hyperpolarizabilities (the repeated Greek subscript implies summation over the Cartesian coordinates x , y , and z ). For molecules with C 2 h ( trans -1,3-butadiene) symmetry the dipole polarizability tensor α αβ has four independent components and for C 2 v symmetry ( cis -1,3-butadiene) three .…”

Determination of the Complete Polarizability Tensor of 1,3-Butadiene by Combination of Refractive Index and Light Scattering Measurements and Accurate Quantum Chemical ab Initio Calculations