A METHOD FOR CALCULATING VIBRONIC MAGNETIC ROTATIONAL STRENGTHS AND OSCILLATOR STRENGTHS: FORMALDEHYDE
TL;DRAbstract
A method for calculating the magnetic rotational strength (-B(A$\\rightarrow$ J)) and the dipole strength (D(A $\\rightarrow$ J)) for electronically forbidden, vibronically allowed electronic transitions is presented. As an example, these parameters are calculated in a semiempirical framework (CNDO/2 SCF wave functions, valence shell Cl, and one center contributions to the electric and magnetic moments) and are compared with experiment for the $n\\rightarrow \\Pi^{*}$ transition (353 nm absorption system, $^{1}A_{2}$ state) of formaldehyde.
Chat with Paper
AI Agents for this Paper
A method for calculating the magnetic rotational strength (-B(A$\\rightarrow$ J)) and the dipole strength (D(A $\\rightarrow$ J)) for electronically forbidden, vibronically allowed electronic transitions is presented. As an example, these parameters are calculated in a semiempirical framework (CNDO/2 SCF wave functions, valence shell Cl, and one center contributions to the electric and magnetic moments) and are compared with experiment for the $n\\rightarrow \\Pi^{*}$ transition (353 nm absorption system, $^{1}A_{2}$ state) of formaldehyde.
Keywords
Chat
Click to start Chat