We calculate the optical conductivity of small polarons in the Holstein and Holstein-t-J models, by applying the dynamical mean field theory. We show that the antiferromagnetic correlations tend to increase the region of the parameters where polaronic signatures are found in the optical spectra, and shift the polaronic absorption band to higher frequencies compared to the case of purely lattice polarons. On the other hand, the electronlattice interaction is essential in order to have polaronic features in the optical absorption.
Optical properties of lattice/magnetic small polarons from DMFT
Ciuchi S;Cappelluti E;Fratini S
2008
Abstract
We calculate the optical conductivity of small polarons in the Holstein and Holstein-t-J models, by applying the dynamical mean field theory. We show that the antiferromagnetic correlations tend to increase the region of the parameters where polaronic signatures are found in the optical spectra, and shift the polaronic absorption band to higher frequencies compared to the case of purely lattice polarons. On the other hand, the electronlattice interaction is essential in order to have polaronic features in the optical absorption.File in questo prodotto:
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