Evolution of the Fermi Surface and Quasiparticle Renormalization through a van Hove Singularity in Sr2−yLayRuO4

Shen, K.
Kikugawa, N.
Bergemann, C.
Balicas, L.
Baumberger, F.
Meevasana, W.
Ingle, N.
Maeno, Y.
Shen, Z.
Mackenzie, A.

Publication date

October 2007

DOI

10.1103/PhysRevLett.99.187001

Abstract

We employ a combination of chemical substitution and angle resolved photoemission spectroscopy to prove that the Fermi level in the gamma band of Sr2-gamma La gamma RuO4 can be made to traverse a van Hove singularity. Remarkably, the large mass renormalization has little dependence on either k or doping. By combining the results from photoemission with thermodynamic measurements on the same batches of crystals, we deduce a parametrization of the full many-body quasiparticle dispersion in Sr2RuO4 which extends from the Fermi level to approximately 20 meV above it

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Evolution of the Fermi Surface and Quasiparticle Renormalization through a van Hove Singularity in Sr<sub>2−y</sub>La<sub>y</sub>RuO<sub>4</sub>

Abstract

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Evolution of the Fermi Surface and Quasiparticle Renormalization through a van Hove Singularity in Sr<sub>2−y</sub>La<sub>y</sub>RuO<sub>4</sub>

Abstract

Extracted data

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