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SYEC: Symposium Exact-exchange and hybrid functionals meet quasiparticle energy calculations

SYEC 4: Exact-exchange and hybrid functionals meet quasiparticle energy calculations IV

SYEC 4.1: Vortrag

Freitag, 29. Februar 2008, 10:15–10:30, A 151

GW Method for f-electron Systems: Applications to CeO₂ and ThO₂ — •Hong Jiang¹, Ricardo I. Gomez-Abal¹, Xinzheng Li¹, Patrick Rinke^1,2, and Matthias Scheffler¹ — ¹Fritz-Haber-Institut der MPG, Berlin — ²University of California at Sant Barbara, CA 93106

Understanding the physics of f-electron systems is regarded as a great challenge in condensed-matter physics today. In many of these materials the strong localization of the f-electrons gives rise to large many-body exchange and correlation effects and in addition leads to severe self-interaction errors in the local-density approximation (LDA). Many-body perturbation theory in the GW approximation offers both a quasiparticle perspective and an exact treatment of exchange. It is therefore a promising approach for investigating these systems. In this work we apply the G₀W₀ method to CeO₂ and ThO₂, the “simplest” f-electron systems for which the LDA provides a qualitatively correct description, but underestimates band gaps significantly. For both materials, G₀W₀ based on LDA provides an accurate description for the fundamental (p-d) band gap. In CeO₂, the highly localized f-states fall within the p-d gap; the G₀W₀ correction increases the p-f gap and reduces the f-band width considerably. The resultant density of states is in good agreement with experiments. In ThO₂, the 5f-states are more delocalized and overlap with the Th-6d bands; the G₀W₀ correction shifts the 5f-bands more than 6d-bands, changing the density of unoccupied states considerably. Implications for general f-electron systems with partially filled f-shell are discussed.