Interference of electron trajectories and generation of high-order opticalharmonics in a Coulomb system

The amplitudes of harmonics of the atomic response are determined as functi ons of the intensity of the pump Light wave within the range of intensities of 4.9 x 10(13) - 2.1 x 10(14) W cm(-2) through the numerical solution of the Schrodinger equation for a hydrogen atom in an oscillating electric fie ld. For the amplitudes of harmonics starting from the 5th up to at least th e 55th order, these dependences display a deep modulation. Generation of hi gh-order harmonics is analysed within the framework of semiclassical theory including several factors that were ignored in earlier studies. Relatively simple formulas for the amplitudes of high-order harmonics are derived. Th ese formulas agree well with the results of numerical simulations in the ra nge of tunnelling ionisation and provide a satisfactory agreement with nume rical simulations in the range of barrier-suppression ionisation.