X-ray photoemission spectra generally exhibit satellite features in addition to quasi-particle peaks due to many-body excitations which have been of considerable theoretical and experimental interest. However, the satellites attributed to charge-transfer (CT) excitations in correlated materials have proved difficult to calculate from first principles. Here we report a real-time, real-space approach for such calculations based on a cumulant representation of the core-hole Green’s function and time-dependent density functional theory. This approach also yields an interpretation of CT satellites in terms of a complex oscillatory, transient response to a suddenly created core hole. Illustrative results for TiO2 and NiO are in good agreement with experiment.
Revised: July 29, 2015 |
Published: March 25, 2015
Citation
Kas J.J., F.D. Vila, J.J. Rehr, and S.A. Chambers. 2015.Real time cumulant approach for charge-transfer satellites in x-ray photoemission spectra.Physical Review B 91, no. 12:Article No. 121112(R).PNNL-SA-104564.doi:10.1103/PhysRevB.91.121112