Strong-field triple ionization of atoms with p3 valence shell

Abstract

The interaction of strong pulsed femtosecond laser field with atoms having three equivalent electrons in the outer shell (p3 configuration, e.g. nitrogen) is studied via numerical integration of a time-dependent Schr\"odinger equation on a grid approach. Single, double and triple ionization yields originating from a completely antisymmetric wave function are calculated and extracted using a restricted-geometry model with the soft-core potential and three active electrons. The direct triple ionization channel is found to produce a larger yield than the channel connected with single and then direct double ionization. Compared against earlier results investigating the n s 2 n p1 configuration, we propose that the differences found here might in fact be accessible through electron's momentum distribution.