Saturating multiple ionization in intense mid-infrared laser fields

Abstract: The interpretation of experimental data from novel mid-infrared few-cycle laser sources requires an understanding of ionization mechanisms and knowledge about related ion yields. Experimental studies have indicated sequential double ionization as the dominant process above 1014 W cm−2. These results contradict a recent prediction that in this spectral region, non-sequential processes dominate the double ionization of xenon up to intensities of about 1015 W cm−2. In either case, the ratio of doubly to singly ch… Show more

“…The IM technique has played a key role in numerous studies [9]. In particular, it has allowed the study of strong-field ionization at intensities beyond saturation [6,10] and provided important insight into XUV-matter interactions [8,11,12]. Recently, ion microscopy has also been applied to the study of Rydberg atoms in strong electric fields [13,14].…”

Ion microscopy with evolutionary-algorithm-based autofocusing

“…The IM technique has played a key role in numerous studies [9]. In particular, it has allowed the study of strong-field ionization at intensities beyond saturation [6,10] and provided important insight into XUV-matter interactions [8,11,12]. Recently, ion microscopy has also been applied to the study of Rydberg atoms in strong electric fields [13,14].…”

Ion microscopy with evolutionary-algorithm-based autofocusing