Isotopic effect in the resonance dissociative capture of an electron and quasistationary states of molecules

Electron motion between resonant states in an intensive light field results in variation of equilibrium positions of nuclei with time, and this causes variation of the energy of the excited electron state. This is the reason why oscillations in the populations of electronic states and equilibrium po

The interaction of a single electron spin with an external magnetic field is presented. The broadening and shift in the electron spin resonance lineshape is discussed on the basis of classical ensemble theories. Due to a novel frequency stabilization scheme we were able to perform time consuming inv

The feasibility of determining nuclear quadrupole hyperfine splittings in the ground electronic state of a polyatomic molecule using a double resonance quantum beat method has been demonstrated. Pyrimidine molecules were coherently excited into single rotational states of the So 201 ( 13a ~) vibrati

Second-order perturbative formulae for handling the Renner-Teller effect combined with the spin-orbit coupling in electronic states of triatomic and symmetric (ABBA-type) tetra-atomic molecules with linear equilibrium geometry are derived. Two schemes for partition of the model Hamiltonian are emplo

Second-order perturbative formulae for handling the Renner-Teller effect combined with the spin-orbit coupling in electronic states of triatomic and symmetric (ABBA-type) tetra-atomic molecules with linear equilibrium geometry are derived via two schemes for partition of the model Hamiltonian. The f