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Autori principali: Park, Hwiwoo, Park, Jun H., Hwang, Jungseek
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2308.05290
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author Park, Hwiwoo
Park, Jun H.
Hwang, Jungseek
author_facet Park, Hwiwoo
Park, Jun H.
Hwang, Jungseek
contents Planckian behavior has been recently observed in La1.76Sr0.24CuO4 at the pseudogap critical point. The Planckian behavior takes place in an intriguing quantum metallic state at a quantum critical point. Here, the Planckian behavior was simulated with an energy-independent (or flat) and weakly temperature-dependent electron-boson spectral density (EBSD) function by using a generalized Allen's (Shulga's) formula. We obtained various optical quantities from the flat EBSD function, such as the optical scattering rate, the optical effective mass, and the optical conductivity. These quantities are well fitted with the recently observed Planckian behavior. Fermi-liquid behavior was also simulated with an energy-linear and temperature-independent EBSD function. The EBSD functions agree well with the overall doping- and temperature-dependent trends of the EBSD function obtained from the optically measured spectra of cuprate systems, which can be crucial for understanding the microscopic electron-pairing mechanism for high-Tc superconductivity in cuprates.
format Preprint
id arxiv_https___arxiv_org_abs_2308_05290
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Planckian behavior of cuprates at the pseudogap critical point simulated via flat electron-boson spectral density
Park, Hwiwoo
Park, Jun H.
Hwang, Jungseek
Superconductivity
Strongly Correlated Electrons
Planckian behavior has been recently observed in La1.76Sr0.24CuO4 at the pseudogap critical point. The Planckian behavior takes place in an intriguing quantum metallic state at a quantum critical point. Here, the Planckian behavior was simulated with an energy-independent (or flat) and weakly temperature-dependent electron-boson spectral density (EBSD) function by using a generalized Allen's (Shulga's) formula. We obtained various optical quantities from the flat EBSD function, such as the optical scattering rate, the optical effective mass, and the optical conductivity. These quantities are well fitted with the recently observed Planckian behavior. Fermi-liquid behavior was also simulated with an energy-linear and temperature-independent EBSD function. The EBSD functions agree well with the overall doping- and temperature-dependent trends of the EBSD function obtained from the optically measured spectra of cuprate systems, which can be crucial for understanding the microscopic electron-pairing mechanism for high-Tc superconductivity in cuprates.
title Planckian behavior of cuprates at the pseudogap critical point simulated via flat electron-boson spectral density
topic Superconductivity
Strongly Correlated Electrons
url https://arxiv.org/abs/2308.05290