Spectroscopic Investigation of the Molecular Vibrations of 1,4-Dihydronaphthalene in Its Ground and Excited Electronic States

The rotational spectra of NiF in the electronic ground 2 state and the lowest electronically excited 2 state have been observed. The source of nickel atom was sputtering from a nickel electrode or nickel powder placed on a stainless steel electrode. The molecular constants have been determined by a

YN molecules were produced in a free jet molecular beam apparatus by a laser vaporizing yttrium metal in the presence of He doped with NH 3 . Laser excitation spectra were observed in the range 18 250-19 850 cm -1 . The ground state was confirmed to have 1 + symmetry. The fundamental vibration in th

The rotational spectrum of the ground state, the excited \(A\) states \(\nu_{3}, 2 \nu_{3}\) and probably \(\nu_{2}\), and the lowest \(E\) state \(v_{6}\) of \(\mathrm{CH}^{35} \mathrm{Cl}_{3}\) have been measured. The ground state microwave spectrum was analyzed to obtain nuclear quadrupole coupli

Using a recently modified INDO method the equilibrium intermolecular distance and heats of formation of various types of molecular complexes (CT, HB, CTTS, etc.) have been calculated. The results obtained are in reasonable agreement with available ab initio studies.