Ultrafast dynamic Coulomb screening of X-ray core excitons in photoexcited semiconductors
| Autor: | Rossi, Thomas C., Qiao, Lu, Dykstra, Conner P., Pela, Ronaldo Rodrigues, Gnewkow, Richard, Wallick, Rachel F., Burke, John H., Nicholas, Erin, March, Anne-Marie, Doumy, Gilles, Buchholz, D. Bruce, Deparis, Christiane, Zuñiga-Pérez, Jesus, Weise, Michael, Ellmer, Klaus, Fondell, Mattis, Draxl, Claudia, van der Veen, Renske M. |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Ultrafast X-ray spectroscopy has been revolutionized in recent years due to the advent of fourth-generation X-ray facilities. In solid-state materials, core excitons determine the energy and line shape of absorption features in core-level spectroscopies such as X-ray absorption spectroscopy. The screening of core excitons is an inherent many-body process that can reveal insight into charge-transfer excitations and electronic correlations. Under non-equilibrium conditions such as after photoexcitation, however, core-exciton screening is still not fully understood. Here we demonstrate the dynamic Coulomb screening of core excitons induced by photoexcited carriers by employing X-ray transient absorption (XTA) spectroscopy with picosecond time resolution. Our interpretation is supported by state-of-the-art ab initio theory, combining constrained and real-time time-dependent density functional theory with many-body perturbation theory. Using ZnO as an archetypal wide band-gap semiconductor, we show that the Coulomb screening by photoexcited carriers at the Zn K-edge leads to a decrease in the core-exciton binding energy, which depends nonlinearly on both the excitation density and the distribution of photoexcited carriers in reciprocal space. The effect of Coulomb screening dominates over Pauli blocking in the XTA spectra. We show that dynamic core-exciton screening is also observed at other X-ray absorption edges and theoretically predict the effect of core-exciton screening on the femtosecond time scale for the case of ZnO, a major step towards hard X-ray excitonics. The results have implications for the interpretation of ultrafast X-ray spectra in general and their use in tracking charge carrier dynamics in complex materials on atomic length scales. Comment: 43 pages, 37 figures |
| Databáze: | arXiv |
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