Studies in mass spectrometry

Bourne, Anthony John

January 1968

No description available.

Mass spectrometry ; Vibrational spectra

Implication methods for the determination of quadratic force constants

Green, Raymond Winston

January 1971

Currently the formulation of a valid force constant matrix poses the largest problem in the normal coordinate analysis or the mechanical interpretation of vibrational spectra. Usually a preselected set of trial force constants is iteratively corrected by means of first order perturbation theory and the principle of least squares. This thesis breaks that tradition and operates the normal coordinate analysis through an implied force constant matrix, [formula omitted], where LL(t) = G, the familiar Wilson G-matrix. The A-matrix is composed of the experimental vibrational frequencies for a selected basis molecule and the L-matrix is parameterized in a general way. The L-matrix parameters are varied until the implied force constant matrix generates an optimum mechanical picture of the basis molecule and its isotopic homologs. However this thesis emphasizes the vibrational fundamentals of isotopic homologs in specifying the implied force field. In application six L-matrix parameters encompass the sixty-three planar vibrational frequencies of ethylene and its deuterohomologs with slightly less error than traditional calculations using as many as fifteen potential energy parameters. As well, the implied force constants comply with the existing picture of chemical bonding without deliberate a priori reference to it. In particular, aspects of the hybrid orbital force field are confirmed without prior constraints. In more detailed computational studies the implied force field has revealed a systematic trend in anharmonic effects which can he understood in terms of different vibrational amplitudes for different isotopic homologs. The influence of vibrational amplitude has been parameterized and included within the implication method as a simple anharmonicity correction. For example, one L-matrix parameter and three vibrational amplitude parameters encompass the nine observed vibrational frequencies of water and its deuterohomologs with an average frequency error of 0.4 cm(-1) . Without amplitude corrections the average frequency error becomes 10.7 cm(-1) with one L-matrix parameter or 12.8 cm(-1) with four potential energy parameters.. It is particularly significant that this simple picture of anharmonicity employs the observed vibrational frequencies rather that the empirically derived harmonic frequencies. As well, the vibrational amplitude parameters comply with expected features of potential energy surfaces such as the dissociation limit. The principle advantage of the implication method is that there a fewer L-matrix parameters than F-matrix parameters. The principal disadvantage is that approximations and intuitive notations are not easily built into the implication method. However, as experimental information becomes more complete and better understood, the need for improved analytic foundations dominates the need for handy approximations. / Science, Faculty of / Chemistry, Department of / Graduate

Vibrational spectra

Molecular spectra

Vibrational spectra of some tin (II) thiocyanate complexes

Absi, Tewfik Boutros

January 1976

No description available.

Vibrational spectra.

Tin compounds.

The vibrational analysis of six isotopic species of BO? /

Bryson, James Hubert

January 1978

No description available.

Chemistry

Vibrational spectra

Vibrational spectra of some icosahedral dodecaborate salts

Abdel-Fattah, Mohamed Ibrahim

January 1976

No description available.

Boron -- Spectra.

Vibrational spectra.

Vibrational Spectra and Potential Function of Tetrachlorocyclopropene

Adame, I. Ernesto (Ignacio Ernesto)

08 1900

The laser Raman spectra of tetrachlorocyclopropene in the liquid and solid phases have been recorded and vibrational assignments are presented. These results along with root mean squared vibrational amplitudes from electron diffraction data have been employed in a normal coordinate analysis in which a 19 parameter potential function is refined. This potential function, originally expressed in terms of compliance constants, is then used to derive the corresponding conventional and relaxed force constants.

Raman spectroscopy

Tetrachlorocyclopropene -- Spectra.

Vibrational spectra.

vibrational amplitudes

Vibrational absorption, vibrational circular dichroism and theoretical studies of methyl lactate molecules in solution phase and in argon matrices

Liu, Yang

Unknown Date

No description available.

vibrational absorption

vibrational circular dichroism

chirality

methyl lactate

matrix isolation

Vibrational and electronic states of sapphire and wurtzite ZnO

Machatine, Augusto Gonçalo Jose

16 June 2011

No abstract available. / Thesis (PhD)--University of Pretoria, 2010. / Physics / unrestricted

UCTD

The infrared spectrum of the helium molecular ion helium-3 positive helium-4.

Yu, Nan.

January 1988

This dissertation is concerned with the first experimental observation of the vibration-rotation spectrum of the helium molecular ion, ³He⁴He⁺. The Doppler-tuned fast-beam laser-resonance technique has been used. The ions produced in an electron-impact ion source form an ion beam of a few KeV and then intersect nearly colinearly with a CO IR laser beam of fixed frequency. The velocity of the ions is scanned to tune the ions into resonance with the laser frequency. Subsequent resonance detection is realized by using charge exchange processes of the ion with a target gas. Twelve spectral lines have been measured which correspond to nine different vibration-rotation transitions of the R branch in the fundamental band of the ground state of ³He⁴He⁺. The combination of the kinematic compression of the fast-beam method and the special frequency stabilization of the CO laser render an experimental accuracy of 0.0006 cm⁻¹ or 0.4 ppm. The accuracy exceeds that of the available theory by three orders of magnitude. The narrow spectral linewidth also allows partial resolution of the magnetic hyperfine structure due to helium-3. A hyperfine structure calculation has been carried out using a numerical multi-configuration self-consistent-field method. The agreement between the calculation and the observation is very satisfying.

Helium ions -- Spectra.

Vibrational spectra.

The study and refinement of vibrational force fields using optical and inelastic neutron scattering spectra

Atter, Glenn David

January 1996

No description available.

541

Adenine; Thiophene; Vibrational analysis