부산대학교 도서관

We present a combined experimental and theoretical investigation of the radiationless decay spectrum of an O 1s double core hole in liquid water. Our experiments were carried out using liquid-jet electron spectroscopy from cylindrical microjets of normal and deuterated water. The signal of the double-core-hole spectral fingerprints (hypersatellites) of liquid water was clearly identified, with an intensity ratio to Auger decay of singly charged O 1s of 0.0014(5). We observed a significant isotope effect between liquid H$_2$O and D$_2$O. For theoretical modeling, the Auger electron spectrum of the central water molecule in a water pentamer was calculated using an electronic-structure toolkit combined with molecular-dynamics simulations to capture the influence of molecular rearrangement on the ultra-short lifetime of the double core hole. We obtained the static and dynamic Auger spectra for H$_2$O, (H$_2$O)$_5$, D$_2$O, and (D$_2$O)$_5$, instantaneous Auger spectra at selected times after core-level ionization, and the symmetrized oxygen-hydrogen distance as a function of time after double core ionization for all four prototypical systems. We consider this observation of liquid-water double core holes as a new tool to study ultrafast nuclear dynamics.
Comment: Main manuscript: 26 pages, 7 figures. Supplemental Material: 16 pages, 9 figures