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.

1 P. D. Johnson, 87 : 177007-, 2001

2 T. Valla, 98 : 167003-, 2007

3 Wentao Zhang, 100 : 107002-, 2008

4 Jungseek Hwang, "arXiv cond-mat"

5 J. Hwang, "a-axis optical conductivity of detwinned ortho-II YBa2Cu3O6.50" 73 : 014508-, 2006

6 G. A. Thomas, "Y Ba2Cu3O7-δ electrodynamics of crystals with high reflectivity" 61 : 1313-, 1988

7 A. V. Puchkov, "The pseudogap state in high-Tc superconductors: an infrared study" 8 : 10049-, 1996

8 Pengcheng Dai, "The magnetic excitation spectrum and thermodynamics of high-Tc superconductors" 284 : 1344-, 1999

9 H. F. Fong, "Spin susceptibility in underdoped YBa2Cu3O6+x" 61 : 14773-, 2000

10 Ar. Abanov, "Singularities in the optical response of cuprates" 63 : 180510(R)-, 2001

11 J. Hwang, "Simulation of a hump structure in the optical scattering rate within a generalized Allen formalism and its application to copper oxide systems" 25 : 295701-, 2013

12 Jungseek Hwang, "Reverse process of usual optical analysis of boson-exchange superconductors: impurity effects on s- and d-wave superconductors" 27 : 085701-, 2015

13 R. T. Collins, "Reflectivity and conductivity of YBa2Cu3O7" 39 : 6571-, 1989

14 J. P. Carbotte, "Properties of boson-exchange superconductors" 62 : 1027-, 1990

15 A. J. Millis, "Phenomenological model of nuclear relaxation in the normal state of YBa2Cu3O7" 42 : 167-, 1990

16 E. Schachinger, "Optical properties of bogoliubov quasiparticles" 95 : 144516-, 2017

17 Frederick Wooten, "Optical Properties of Solids" Academic 1972

18 B. C. Webb, "Observation of an energy- and temperature-dependent carrier mass for mixed-valence CePd3" 57 : 1951-, 1986

19 J. Hwang, "Manifestation of the pseudogap in ab-plane optical characteristics" 20 : 295215-, 2008

20 W. L. McMillan, "Lead phonon spectrum calculated from superconducting density of states" 14 : 108-, 1965

21 E. Schachinger, "Inversion techniques for optical conductivity data" 73 : 184507-, 2006

22 F. Marsiglio, "Inversion of K3C60reflectance data" 245 : 172-, 1998

23 Jungseek Hwang, "Intrinsic temperature-dependent evolutions in the electron-boson spectral density obtained from optical data" 6 : 23647-, 2016

24 S. V. Dordevic, "Hybridization gap in heavy fermion compounds" 86 : 684-, 2001

25 W. Gotze, "Homogeneous dynamical conductivity of simple metals" 6 : 1226-, 1972

26 J. Hwang, "High-transition-temperature superconductivity in the absence of the magnetic-resonance mode" 427 : 714-, 2004

27 J. Hwang, "High energy scales in the optical self-energy of the cuprate superconductors" 98 : 207002-, 2007

28 S. V. Dordevic, "Fate of quasiparticles in the superconducting state" 90 : 174508-, 2014

29 P. E. Sulewski, "Far-infrared absorptivity of UPt3" 38 : 5338-, 1988

30 L. Benfatto, "Extended Drude model and role of interband transitions in the midinfrared spectra of pnictides" 83 : 224514-, 2011

31 J. Hwang, "Evolution of the bosonic spectral density of the high-temperature superconductor Bi2Sr2CaCu2O8+δ" 75 : 144508-, 2007

32 Jungseek Hwang, "Electron–boson spectral density function of correlated multiband systems obtained from optical data:Ba0.6K0.4Fe2As2 and LiFeAs" 28 : 125702-, 2016

33 S. V. Shulga, "Electronic states and optical spectra of HTSC with electron-phonon coupling" 178 : 266-, 1991

34 P. B. Allen, "Electron-phonon effects in the infrared properties of metals" 3 : 305-, 1971

35 J. Hwang, "Electron-boson spectral density function of underdoped Bi2Sr2CaCu2O8+δ and YBa2Cu3O6.50" 83 : 014507-, 2011

36 S. G. Sharapov, "Effects of energy dependence in the quasiparticle density of states on far-infrared absorption in the pseudogap state" 72 : 134506-, 2005

37 B. Mitrovic, "Effects of energy dependence in the electronic density of states on the far-infrared absorption in superconductors" 31 : 2694-, 1985

38 E. Schachinger, "Coupling to spin fluctuations from conductivity scattering rates" 62 : 9054-, 2000

39 J. P. Carbotte, "Coupling strength of charge carriers to spin fluctuations in high-temperature superconductors" 401 : 354-, 1999

40 A. M. Awasthi, "Complete optical spectrum of CeAl3" 48 : 10692-, 1993

41 P. Tran, "Charge excitation spectrum in UPt3" 65 : 205102-, 2002

42 J. P. Carbotte, "Bosons in high-temperature superconductors: an experimental survey" 74 : 066501-, 2011

43 J. Hwang, "Bosonic spectral density of epitaxial thin-film La1.83Sr0.17CuO4 superconductors from infrared conductivity measurements" 100 : 137005-, 2008

44 J. P. Carbotte, "Boson structures in the relation between optical conductivity and quasiparticle dynamics" 71 : 054506-, 2005

45 Jungseek Hwang, "Analysis of optical data using extended Drude model and generalized Allen's formulas" 30 : 405604-, 2018

46 Hazime Mori, "A continued-fraction representation of the time-correlation functions" 34 : 399-, 1965