Attosecond electronic dynamics of core-excited states of N₂O in the soft x-ray region

We present a combined experimental and theoretical study of the transient absorption spectroscopy of N₂O at the N K edge (400 eV) by employing an attosecond soft x-ray pulse and an overlapping intense femtosecond infrared pulse. We demonstrate that tunnel ionization of the core-excited states of neutral N₂O causes prominent half-cycle oscillations in the absorption signal. In addition, we observe the appearance of the N₂O⁺ signal with increasing delay as a result of the tunneling ionization of N₂O, thereby allowing us to follow the tunneling process in real time. We have developed theoretical models that allow us to interpret and reproduce the main trends of the experimental data