Ubiquity of Linear Resistivity at Intermediate Temperature in Strongly Correlated Metals
Abstract
Correlated metals display transport behavior that differs from what is commonly seen in ordinary metals (Fermi-liquids). One of the most salient features is a resistivity that is linear in temperature over decades in temperature and rises to well above the Ioffe-Regel limit (where the mean-free path is less than a lattice spacing). Using an exact representation of the Kubo linear response, we show that a linear resistivity naturally occurs in a minimal model that includes only hopping and correlation. We expect this to be common to many systems at an incoherent intermediate-temperature state, above the Fermi coherence scale. We verify the analytic arguments with exact calculations for Falicov-Kimball model which is solved with dynamical mean-field theory. Similar features have also been seen in Hubbard models, which can be approximated by the Falicov-Kimball model.
- Publication:
-
APS March Meeting Abstracts
- Pub Date:
- March 2014
- Bibcode:
- 2014APS..MARL46010B