2008-Laad-PhysRevLett.100.096402.pdf (328 kB)
Orbital non-Fermi-liquid behavior in cubic ruthenates
journal contributionposted on 2013-07-10, 13:00 authored by Mukul S. Laad, I. Bradaric, Feodor Kusmartsev
We peruse various anomalous physical responses of the cubic (ferromagnetic SrRuO3 and paramagnetic CaRuO3) ruthenates, such as fractional power-law conductivity, anomalous Raman line shapes, and Hall currents. We show how these exciting power-law observations are naturally described within a new, local (orbital) non-Fermi-liquid state arising from strong, multiorbital Coulomb interactions. Introducing a multiorbital, correlated model treated within the dynamical mean-field theory, we also find two distinct relaxation rates for relaxation of transport in complete agreement with experiment.
CitationLAAD, M.S., BRADRIC, I. and KUSMARTSEV, F.V., 2008. Orbital non-Fermi-liquid behavior in cubic ruthenates. Physical Review Letters, 100 (9), 096402, 4pp.
Publisher© American Physical Society
- VoR (Version of Record)
NotesThis article was published in the journal, Physical Review Letters [© American Physical Society].