![]() The procedures are illustrated by sample calculations. Procedures are described, in this pedagogical monograph, for making quantum mechanical calculations of rotational energy levels and rotational line intensities in diatomic molecules. A calculation of the expected relative vibrational excitations based upon the Franck-Condon principle clearly showed non-Franck-Condon behavior in some of the vibrational-electronic transitions.Įquations & Underpinning Theory: Diatomic Rotational Calculations While the electron spectrometer resolution was not sufficient to resolve the spin orbit and Renner-Teller splitting in the photoelectron spectra, we are able to fit the data with a model that identifies the major structure in terms of the symmetric stretch and elements of the asymmetric stretch and bending modes. This resolution allowed the study of the branching ratios and asymmetry parameters with enough detail to see the changes in the parameters within the pronounced autoionization structure in CO 2 in this wavelength region. The study was performed using synchrotron radiation from the Daresbury storage ring that was dispersed with a 5 m grating monochromator that afforded resolution of 0.1 Å to 0.2 Å. ![]() The vibrational branching ratios and asymmetry parameters for CO 2 have been determined in the wavelength region of 650 Å to near the ionization onset at about 840 Å. For convenience, representative line antenna temperatures are listed for a typical astronomical source for each transition, and the references are cited for the laboratory and astronomical literature that have been employed.Ī.C. Parr, J.B. West, M.R.F. King, K. Ueda, P.M. Dehmer, and J.L. Dehmer The information tabulated includes the species identity, transition frequency, uncertainty, and quantum state labels. The transition frequencies have been selected through a critical examination and analysis of the laboratory spectral data obtained from the literature through December 2002. This database contains critically evaluated transition frequencies for molecular transitions detected in interstellar and circumstellar clouds recommended by NIST for reference in future astronomical observations in the centimeter and millimeter wavelength regions. The spectra cover the 488 cm -1 to 3120 cm - cm -1 to 4400 cm -1 regions.įrequencies for Interstellar Molecular Microwave Transitions Five molecules are included in the atlas: CO, OCS, N 2O, NO, and CS 2. This database is an atlas of molecular spectra and associated tables of wavenumbers from heterodyne frequency measurements for the calibration of infrared spectrometers. Wavenumber Tables for Calibration of Infrared Spectrometers Each of the databases covers primarily the microwave region with some data available for the radio frequency region. These three databases of diatomic, triatomic, and hydrocarbon molecules were originally published as spectral tables in the Journal of Physical and Chemical Reference Data. Microwave Spectral Data: Diatomics, Triatomics, and Hydrocarbons Frequencies for Interstellar Molecular Microwave Transitions.Wavenumber Tables for Calibration of Infrared Spectrometers.Synchrotron Ultraviolet Radiation Facility SURF III.Radiopharmaceutical Standardization Laboratory.Calibrations Customer Survey (external link).Simply click the "Reload" button and all will be well with the world. You do not have to restart your web browser or your computer after you enable JavaScript. ![]() Open your browser preferences, and enable JavaScript. You need to turn JavaScript on in order to control this web page. ![]() Video Tutorials Learn about CrystalMaker in these detailed audio-visual tutorials
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |