TITLE:
Control of the Atomic Ionization with Short and Intense Chirped Laser Pulses
AUTHORS:
Samira Barmaki, Salima Hennani, Stéphane Laulan
KEYWORDS:
Atomic System; Chirped Laser; Population Transfer; Nonperturbative Approach
JOURNAL NAME:
Journal of Modern Physics,
Vol.4 No.10A,
October
18,
2013
ABSTRACT:
We investigate a two-photon ionization process in a real hydrogen atom by short and intense chirped laser pulses. Our simulation of the laser-atom interaction consists on numerically solving the three-dimensional time-dependent Schrodinger equation with a spectral method. The unperturbed wave functions and electronic energies of the atomic system were found by using an accurate L2 discretisation technique based on the expansion of the wave functions on B-spline functions. We show the efficiency of chirped laser pulses to control the ionization yield and the transfer of the population to the 2p bound state involved in the ionization path.