Population trapping in bound states during IR-assisted ultra-fast photoionization of Ne+

Abstract

We have investigated photoionization of Ne+ in the combined field of a short infra-red laser pulse and a delayed ultra-short pulse of the infra-red laser's 23rd harmonic. We observe an ionization yield compatible with a picture in which one electron gets excited into Rydberg states by the harmonic laser field and is subsequently removed by the infra-red laser field. Modulations are seen in the ionization yield as a function of time delay. These modulations originate from the trapping of population in low members of the Rydberg series with different states being populated at different ranges of delay times. The calculations further demonstrate that single-threshold calculations cannot reproduce the Ne+ photoionization yields obtained in multi-threshold calculations.