원문정보
초록
영어
Extended Drude model has been used to obtain information of correlations from measured optical spectra of strongly correlated electron systems. The optical self-energy can be defined by the extended Drude model formalism. One can extract the optical selfenergy and the electron-boson spectral density function from measured reflectance spectra using a well-developed usual process, which is consistent with several steps including the extended Drude model and generalized Allen's formulas. Here we used a reverse process of the usual process to investigate the extended Drude analysis when an additional low-energy interband transition is included. We considered two typical electron-boson spectral density model functions for two different (normal and d-wave superconducting) material states. Our results show that the low-energy interband transition might give significant effects on the electron-boson spectral density function obtained using the usual process. However, we expect that the low-energy interband transition can be removed from measured spectra in a proper way if the transition is well-defined or well-known.
목차
1. INTRODUCTION
2. THEORETICAL FORMALISM
3. RESULTS OF MODEL CALCULATIONS AND DISCUSSIONS
4. LOW-ENERGY INTERBAND TRANSITION EFFECTS ON EXTENDED DRUDE MODEL ANALYSIS
5. CONCLUSIONS
ACKNOWLEDGMENT
REFERENCES