Transport in a classical model of a one-dimensional Mott insulator: Influence of conservation laws
Markus Garst,Achim Rosch +1 more
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In this article, the authors studied how conservation laws affect the optical conductivity σ(ω) of a slightly doped one-dimensional Mott insulator in a regime where the average distance between charge excitations is large compared to their thermal de Broglie wavelength and a classical description is possible.Abstract:
We study numerically how conservation laws affect the optical conductivity σ(ω) of a slightly doped one-dimensional Mott insulator. We investigate a regime where the average distance between charge excitations is large compared to their thermal de Broglie wavelength and a classical description is possible. Due to conservation laws, the dc conductivity is infinite and the Drude weight D is finite even at finite temperatures. Our numerical results test and confirm exact theoretical predictions for D both for integrable and non-integrable models. Small deviations from integrability induce slowly decaying modes and, consequently, low-frequency peaks in σ(ω), which can be described by a memory matrix approach.read more
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References
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Hydrodynamic Fluctuations, Broken Symmetry and Correlation Functions
TL;DR: In this article, a simple example of spin diffusion is presented, where the normal fluid and the memory function formalism are combined with Brownian motion and spin wave propagation in Ferromagnets.