Above-threshold ionization in atomic hydrogen using intense, few-cycle laser pulses

Wallace, W C; Pullen, M G; Laban, D E; Palmer, A J; Hanne, G F; Grum-Grzhimailo , A N; Abeln, B; Bartschat, Klaus R; Weflen, D; Ivanov, Igor; Kheifets, Anatoli; Quiney, Harry Morris; Litvinyuk, I V; Sang, Robert T; Kielpinski, D

Above-threshold ionization in atomic hydrogen using intense, few-cycle laser pulses

Date

2012

Authors

Wallace, W C

Pullen, M G

Laban, D E

Palmer, A J

Hanne, G F

Grum-Grzhimailo , A N

Abeln, B

Bartschat, Klaus R

Weflen, D

Ivanov, Igor

Publisher

Institute of Physics Publishing

Abstract

The interaction of intense few-cycle light pulses and matter has given rise to a number of high-field physical processes that are of great interest. The high non-linearity of such interactions necessitates complex numerical simulations in order to retrieve useful physical measurements from the experimental data. Here we demonstrate quantitative agreement at the 10% level between experimentally obtained integrated photoelectron spectra and numerical simulations for above-threshold ionization in the intense few-cycle regime. The use of atomic hydrogen provides a key experimental innovation as it is the only electronic system for which ab initio simulations in this regime are available.