Attosecond-pump attosecond-probe x-ray spectroscopy of liquid water
Shuai Li, Lixin Lu, Swarnendu Bhattacharyya, Carolyn Pearce, Kai Li, Emily T. Nienhuis, Gilles Doumy, R.D. Schaller, S. Moeller, M.-F. Lin, G. Dakovski, D.J. Hoffman, D. Garratt, Kirk A. Larsen, J.D. Koralek, C.Y. Hampton, D. Cesar, Joseph Duris, Z. Zhang, Nicholas Sudar, James P. Cryan, A. Marinelli, Xiaosong Li, Ludger Inhester, Robin Santra, Linda Young- Multidisciplinary
Attosecond-pump/attosecond-probe experiments have long been sought as the most straightforward method to observe electron dynamics in real time. Although numerous successes have been achieved with overlapped near infrared femtosecond and extreme ultraviolet attosecond pulses combined with theory, true attosecond-pump/attosecond-probe experiments have been limited. We used a synchronized attosecond x-ray pulse pair from an x-ray free electron laser to study the electronic response to valence ionization in liquid water via all x-ray attosecond transient absorption spectroscopy (AX-ATAS). Our analysis showed that the AX-ATAS response is confined to the subfemtosecond timescale, eliminating any hydrogen atom motion and demonstrating experimentally that the 1b 1 splitting in the x-ray emission spectrum is related to dynamics and is not evidence for two structural motifs in ambient liquid water.