3 research outputs found
Vibrational spectral analysis of some isotopic species of hydrogen sulphide, hydrogen selenide and water using the U(4) algebraic model
A successful application of U(4) algebraic model has been reported in the vibrational spectral analysis of some isotopic species of hydrogen sulphide, hydrogen selenide and water. The isotopic species of hydrogen sulphide, hydrogen selenide and water approximated in this study are H2S32, D2S32, H2Se80, D2Se80, H2O17 and T2O16. The inclusion of intermode couplings in algebraic model has been stated on need base to give a deep insight into detailed spectroscopy for the mentioned isotopic species. With a detailed spectral analysis in the present study, it has been shown that the mentioned isotopic species of hydrogen sulphide, hydrogen selenide and water can be approximated very well using only two or three parameters in the U(4) algebraic model
Vibrational spectral analysis of some isotopic species of hydrogen sulphide, hydrogen selenide and water using the U(4) algebraic model
391-400<span style="font-size:9.0pt;font-family:
" times="" new="" roman","serif";mso-fareast-font-family:"times="" roman";mso-ansi-language:="" en-us;mso-fareast-language:en-us;mso-bidi-language:hi"="" lang="EN-US">A successful application
of U(4) algebraic model has been reported in the vibrational spectral analysis
of some isotopic species of hydrogen sulphide, hydrogen selenide and water. The
isotopic species of hydrogen sulphide, hydrogen selenide and water approximated
in this study are H2S32, D2S32, H2Se80,
D2Se80, H2O17 and T2O16.
The inclusion of intermode couplings in algebraic model has been stated on need
base to give a deep insight into detailed spectroscopy for the mentioned
isotopic species. With a detailed spectral analysis in the present study, it
has been shown that the mentioned isotopic species of hydrogen sulphide,
hydrogen selenide and water can be approximated very well using only two or
three parameters in the U(4) algebraic model.</span