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OverviewThis volume provides critically evaluated data on free molecules, obtained from infrared spectroscopy and related experimental and theoretical investigations. It is divided into four subvolumes which look at diatomic molecules, linear triatomic molecules, nonlinear triatomic molecules and polyatomic molecules. The present subvolume deals with the linear triatomic nitrous oxide molecule N2O (NNO). Both the normal isotope species 14N14N6O and eleven of its isotopic varieties have been considered and the tables are preceded by an additional index to help the search for specific information. Systems requirements: Windows 3.X, 95 MAC, UNIX, Ca 4 MB RAM and 8 MB hard disk space needed for the Adobe Acrobat Reader 3.0 with full text search engine. Full Product DetailsAuthor: G. Guelachvili , K. N. RaoPublisher: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG Imprint: Springer-Verlag Berlin and Heidelberg GmbH & Co. K Edition: 1998 ed. Volume: 20B3 Dimensions: Width: 19.30cm , Height: 3.80cm , Length: 27.00cm Weight: 1.475kg ISBN: 9783540636472ISBN 10: 3540636471 Pages: 384 Publication Date: 16 February 1998 Audience: College/higher education , Professional and scholarly , Undergraduate , Postgraduate, Research & Scholarly Format: Mixed media product Publisher's Status: Active Availability: In Print  This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us. Table of ContentsIntroduction.- Energy level designations.- Effective Hamiltonians. Energy matrix. Diagonal elements. Off-diagonal elements. Energy expressions referred to the ground state. Vibrational states. Rotational states. Conversion table for energy-related units and selected fundamental constants. Formulas for determining rotational constants.- Effective parameters. Band center and band origin. Comments on BHO (HBO) (see Chap.6 of subvolume II/20B1). Diagonalizing the energy matrix. Effective molecular parameters. Unperturbed vibrational states. Effects of perturbations. Quadrupole coupling. Potential energy function (PEF).- PEF expanded as a Taylor series. Curvilinear valence coordinates and Morse functions. Dimensionless normal coordinates. Specific forms of the PEF. Dipole moment.- General equations. Specifics related to COS (OCS) (see Chap.38 of subvolume II/20B1). Intensities.- Intensities of spectral lines. Integrated absorption intensities. Total internal partition sum. F-factors (Herman-Wallis factors). Intensity expressions. Intensity units and conversion table. Line profiles. Lorentz profile. Doppler profile. Voigt profile. Galatry profile. Miscellaneous topics. Some definitions related to collisions. Foreign gas broadening. Line coupling. Temperature dependence of broadening. Einstein coefficient of spontaneous emission. Rotational state transfer. Renner-Teller effect (some aspects).- Some functional relations specially applicable to the molecular constants of CO2 (see Chaps. 40.1 ... 40.14 of subvolumes II/20B2a and ss). Designations of the energy levels of CO2. Resonances in CO2. Potential-energy function (PEF). Interaction potential. Dipole moment. Transition dipole moment. HITELOR (High Temperature Low Resolution data base). Line mixing. Several functional relations in which effects of collisions are included. Collisional broadening. Binary absorption coefficient. Normalized absorption coefficient. Collision induced contribution in the band intensity. Self broadening and its temperature dependence. Foreign gas broadening. Transmittance at the center of a spectral line. Line mixing (temperature and pressure dependence). Temperature dependence of line mixing. Pressure dependence of line mixing. Some formulas for the absorption coefficient k(n). Impact approximation. First order theory of Rosenkranz. CO2 laser wave guide amplification and power saturation. Some symbolism appearing in N2O data.- List of symbols.- ReferencesReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |
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