Abstract
Electron coherence is a fundamental quantum phenomenon in today’s ultrafast physics and chemistry research. Based on attosecond pump–probe schemes, ultrafast X-ray photoelectron imaging of molecules was used to monitor the coherent electron dynamics which is created by an XUV pulse. We performed simulations on the molecular ion H 2 + by numerically solving time-dependent Schrödinger equations. It was found that the X-ray photoelectron angular and momentum distributions depend on the time delay between the XUV pump and soft X-ray probe pulses. Varying the polarization and helicity of the soft X-ray probe pulse gave rise to a modulation of the time-resolved photoelectron distributions. The present results provide a new approach for exploring ultrafast coherent electron dynamics and charge migration in reactions of molecules on the attosecond time scale.
Highlights
Time-resolved photoelectron emission spectroscopy has been used widely as an efficient technique for investigating nuclear and electronic dynamics in molecular reactions [1,2,3,4,5,6,7,8]
Probing molecular photoelectron momentum distribution displayed an asymmetric structure, which was shown to be dependent on the time delay between the pump and probe pulses, and the polarization and helicity of the probe pulse
The asymmetry of the time resolved photoelectron angular and momentum distributions arose from the coherent excitation of the molecule induced by the pump pulse
Summary
Time-resolved photoelectron emission spectroscopy has been used widely as an efficient technique for investigating nuclear and electronic dynamics in molecular reactions [1,2,3,4,5,6,7,8]. Electrons have a great potential for probing the time-resolved transient structure of matter via ultrashort photoelectron spectroscopy. One can envisage the emergence of laser-induced electron interference and diffraction [13,14,15,16,17,18,19,20] as efficient methods of measuring molecular electronic structure and electron motion for different fixed nuclear configurations
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