Charge dynamics and optical conductivity of the t-J model

Abstract

The dynamic charge susceptibility and the optical conductivity are calculated in the planar t-J model within the memory function method, working directly in terms of Hubbard operators. The density fluctuation spectrum consists of a damped sound-like mode for small wave vectors and a broad high energy peak ( t) for large momenta. The study of the optical conductivity shows that electron scattering from spin fluctuations leads to the Drude-frequency dependent relaxation rate which exhibits a crossover from ω3/2 behavior at low frequencies (ω <2|μ|), to a linear ω-dependence for frequencies larger than 2|μ|. Due to the spin-polaron nature of charge carriers, extra absorbtions arise starting at a frequency ω J. The obtained results are in a good agreement with exact diagonalization studies.

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