Formation of heavy d-electron quasiparticles in Sr3Ru2O7

Milan Peter Allan, Anna Tamai, Emil Jerzy Rozbicki, M. H. Fischer, J. Voss, Phil King, Worawat Meevasana, S. Thirupathaiah, E. Rienks, J. Fink, David Alan Tennant, Robin Stuart Perry, Jean-Francois Mercure, M. A. Wang, Jinho Lee, C. J. Fennie, E-A Kim, M. J. Lawler, K. M. Shen, Andrew MackenzieZ-X Shen, Felix Baumberger

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Abstract

The phase diagram of Sr3Ru2O7 shows hallmarks of strong electron correlations despite the modest Coulomb interaction in the Ru 4d shell. We use angle-resolved photoelectron spectroscopy measurements to provide microscopic insight into the formation of the strongly renormalized heavy d-electron liquid that controls the physics of Sr3Ru2O7. Our data reveal itinerant Ru 4d-states confined over large parts of the Brillouin zone to an energy range of <6 meV, nearly three orders of magnitude lower than the bare band width. We show that this energy scale agrees quantitatively with a characteristic thermodynamic energy scale associated with quantum criticality and illustrate how it arises from a combination of back-folding due to a structural distortion and the hybridization of light and strongly renormalized, heavy quasiparticle bands. The resulting heavy Fermi liquid has a marked k-dependence of the renormalization which we relate to orbital mixing along individual Fermi surface sheets.

Original languageEnglish
Article number063029
Number of pages10
JournalNew Journal of Physics
Volume15
DOIs
Publication statusPublished - 20 Jun 2013

Keywords

  • Ruthenate SR3RU2O7
  • Coulumb interaction
  • Ru4d shell
  • Photoelectron spectroscopy
  • Fermi liquid

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