Microscopic origin of the `strange' metal

Kyungmin Lee; Aavishkar Patel; Nandini Trivedi; Subir Sachdev

Microscopic origin of the `strange' metal

ORAL

Abstract

We study a disordered Anderson-Hubbard lattice model of strongly interacting fermions. We obtain the space and time dependent electron Green’s function by numerically summing the `melon’ diagrams. We show the emergence of two ``fluids'': (i) a fraction of sites, with weaker hopping than the background, hybridize with a constellation of neighboring sites and nucleate islands, and behave similar to the Sachdev-Ye-Kitaev model; (ii) the remaining background electrons scatter off SYK islands, and display strange metal transport with a linear-in-temperature resistivity, and singular spectral widths down to zero temperature with no coherence scale.

^*K. L. and N. T. have been supported by the Department of Energy Grant No. DE-FG02-07ER46423. A.A. P. and S. S. have been supported by the Department of Energy Grant No. DE-SC0019030.

March 3, 2020, 12:15 PM – March 3, 2020, 12:27 PM

Presenters

Kyungmin Lee
- Physics, The Ohio State University
- Natl High Magnetic Field Lab

Authors

Kyungmin Lee
- Physics, The Ohio State University
- Natl High Magnetic Field Lab
Aavishkar Patel
- Physics, University of California, Berkeley
- University of California, Berkeley
- Physics, Berkeley
Nandini Trivedi
- Department of Physics, Ohio State Univ - Columbus
- Physics, The Ohio State University
- The Ohio State University
- Ohio State Univ Columbus
- Ohio State University
- Ohio State Univ - Columbus
- Physics, Ohio State University
Subir Sachdev
- Physics, Harvard University
- Harvard University
- Department of Physics, Harvard University