Dielectric Theory of Collisional Absorption in Intense Laser Fields

The quadratic anharmonic oscillator Lie algebraic model is used to study the multiphoton transition of the diatomic molecule placed in intense laser fields. The multiphoton excitation of vibration and vibration-rotation of diatomic molecules in intense laser fields are discussed. In the pure vibrati

Angle-resolved mass spectrometry of tetrachloromethane, trichloromethane and dichloromethane irradiated by intense laser light has been carried out using a quadrupole mass spectrometer. Ionization was by means of very intense, short-duration, linearly polarized laser pulses whose wavelength, pulse d

The time-dependent Schrodinger equation for the 1-D H q molecule ¨2 Ž . with both nuclear and electronic degrees of freedom included was solved numerically. A wave᎐function splitting technique was used, which allows one to circumvent the problem of lost information due to commonly used absorbing bou

The effect of an intense laser field on the binding energy of hydrogenic impurity states with an impurity atom located at the center of a spherical quantum dot confined by an infinite barrier potential are studied as a function of the dot radius and of the intensity and frequency of the laser field.