Microwave Spectrum of Formaldehyde II. Molecular Structure in the Ground State

1 December 1960

journal article
research article
Published by Physical Society of Japan in Journal of the Physics Society Japan

Vol. 15 (12) , 2274-2279
https://doi.org/10.1143/jpsj.15.2274

Abstract

Rotational constants for the isotopic formaldehyde molecules H ₂CO, H ₂C ¹³O, H ₂CO ¹⁸, HDCO and D ₂CO were determined from the parameters used in the analysis of K -type doubling spectra and the frequencies of 1 ₀₁←0 ₀₀ transitions. In the cases of isotopic species for which the R -branch transitions were not measured, the calculated inertia defect was used in the determination of the rotational constants. From the rotational constants, the zero-point structure of formaldehyde molecule, r _z, was determined by a new method taking into account the zero-point vibration-rotation interaction and electronic interaction. The following zero-point molecular structure was obtained;

Keywords

This publication has 13 references indexed in Scilit:

Microwave Spectrum and Molecular Structure of Formamide
The Journal of Chemical Physics, 1960
Determination of Molecular Structures from Ground State Rotational Constants
The Journal of Chemical Physics, 1958
Isotopic Mass Ratios, Magnetic Moments and the Sign of the Electric Dipole Moment in Carbon Monoxide
Physical Review B, 1958
The Infrared and Raman Spectra of Formaldehyde-d1 Vapor
The Journal of Chemical Physics, 1954
Determination of Molecular Structure from Microwave Spectroscopic Data
American Journal of Physics, 1953
The Microwave Spectrum of Ketene
The Journal of Chemical Physics, 1952
Centrifugal Distortion in Asymmetric Top Molecules. I. Ordinary Formaldehyde, $H_{2}$ $C^{12}$ O
Physical Review B, 1951
The Vibration-Rotation Energies of Molecules
Reviews of Modern Physics, 1951
The Structure of Formaldehyde from Electron Diffraction
Journal of the American Chemical Society, 1939
The Structure of the Ultraviolet Absorption Spectrum of Formaldehyde. I
Physical Review B, 1934