Unified description of charge dynamics in correlated systems
Author: Heumen, Erik van
Affiliation: University of Amsterdam
Type: Poster
Display Dates: 20.07.2026 - 21.07.2026
Board: MT-104
Correlated electron materials exhibit puzzling transport and optical properties that are still not fully understood, and often appear to be contradictory. Phenomenological approaches generalizing the classical Drude formula have been proposed to account for the complex behavior observed in such “quantum materials”, including multi-component and extended Drude analyses, tentatively relating it to anomalous properties of the electron self-energy.
Here we take advantage of Kubo’s exact formulation of linear response theory to focus directly on the current-current correlation function, as the quantity that correctly bridges between classical and quantum carriers. Without relying on a particular theoretical model, when applied to the superconducting cuprates this approach immediately reveals defining features of the phase diagram — charge order , the strange metal and the Fermi liquid. Our analysis demonstrates that the origin of strange metal behavior lies in the quantum response of incoherent carriers rather than in the properties of the single-particle propagator.