Optical conductivity of strongly correlated electron systems

Abstract

We present an exact diagonalization study of the frequency and wave vector dependent conductivity σ(q,ω) in small clusters of 2D t-J model. Unlike the related dynamical density correlation function, σ(q=0,ω) in the underdoped regime has the exchange constant J as its characteristic energy scale and is dominated by a resonance-like excitation with frequency 1.7J. We interpret this as transition to a p-like excited state of a spin-bag type quasiparticle (or, alternatively, a tightly bound spinon-holon pair) and show that a simple calculation based on the string picture explains the numerical results semiquantitatively. For doping levels 25% t remains the only energy scale of σ(q=0,ω).

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