AI Article Synopsis
- The study investigates electron-boson scattering, moving beyond simple models and weak-coupling methods to provide accurate results at finite temperatures.
- It reveals that quantum localization occurs even in the absence of external disorder, driven by thermal boson effects, but is only significant for short times before diffusion takes over.
- Key evidence of this phenomenon is seen in altered optical absorption patterns and decreased conductivity, highlighting a new understanding of unusual metallic behavior in quantum materials.
Article Abstract
We carefully revisit the electron-boson scattering problem, going beyond weak-coupling expansions and popular semiclassical treatments. By providing numerically exact results valid at finite temperatures, we demonstrate the existence of a broad regime of electron-boson scattering where quantum localization processes become relevant despite the absence of extrinsic disorder. Localization in the Anderson sense is caused by the dynamical randomness resulting from a large thermal boson population, being, however, effective only at transient times before diffusion can set in. Compelling evidence of this transient localization phenomenon is provided by the observation of a distinctive displaced Drude peak in the optical absorption and the ensuing suppression of conductivity. Our findings identify a general route for anomalous metallic behavior that can broadly apply in interacting quantum matter.
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| http://dx.doi.org/10.1103/PhysRevLett.132.266502 | DOI Listing |
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