Wednesday, October 3, 2012

1210.0409 (T. Miyake et al.)

The effects of k-dependent self-energy in the electronic structure of
correlated materials
   [PDF]

T. Miyake, C. Martins, R. Sakuma, F. Aryasetiawan
It is known from self-energy calculations in the electron gas and sp materials based on the GW approximation that a typical quasiparticle renormalization factor (Z factor) is approximately 0.7-0.8. Band narrowing in electron gas at rs = 4 due to correlation effects, however, is only approximately 10%, significantly smaller than the Z factor would suggest. The band narrowing is determined by the frequency-dependent self-energy, giving the Z factor, and the momentum-dependent or nonlocal self-energy. The results for the electron gas point to a strong cancellation between the effects of frequency- and momentum-dependent self-energy. It is often assumed that for systems with a nar- row band the self-energy is local. In this work we show that even for narrow-band materials, such as SrVO3, the nonlocal self-energy is important.
View original: http://arxiv.org/abs/1210.0409

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