Double ionization probed on the attosecond timescale

Abstract

Double ionization following the absorption of a single photon is one of the most fundamental processes requiring interaction between electrons. Information about this interaction is usually obtained by detecting emitted particles without access to real-time dynamics. Here, attosecond light pulses, electron wave packet interferometry and coincidence techniques are combined to measure electron emission times in double ionization of xenon using single ionization as a clock, providing unique insight into the two-electron ejection mechanism. Access to many-particle dynamics in real time is of fundamental importance for understanding processes induced by electron correlation in atomic, molecular and more complex systems. © 2014 Macmillan Publishers Limited.