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2009 Volume 26 Issue 2
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MA Yong-Chang, ZHAO Jie, AN Yu-Kai, LIU Ji-Wen. 2009: Dominance of Antinodal Quasiparticles on the Transport Properties of Heavily Overdoped High-To Cuprates: Infrared-Reflectance Spectra, Chinese Physics Letters, 26(2): 236-239.
Citation: MA Yong-Chang, ZHAO Jie, AN Yu-Kai, LIU Ji-Wen. 2009: Dominance of Antinodal Quasiparticles on the Transport Properties of Heavily Overdoped High-To Cuprates: Infrared-Reflectance Spectra, Chinese Physics Letters, 26(2): 236-239.
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Dominance of Antinodal Quasiparticles on the Transport Properties of Heavily Overdoped High-To Cuprates: Infrared-Reflectance Spectra

  • Key Laboratory of Display Materials and Photoelectric Devices Ministry of Education,School of Materials Science and Engineering,Tianjin University of Technology,Tianjin 300384

  • Available Online: 28/02/2009
  • Fund Project: the National Natural Science Foundation of China under Grant No 10704054, the Tianjin High School Develop-ment Foundation for Science and Technology under Grant No 20060406, and Tianjin Key Laboratory for Photoelectric Materials and Devices
  • The infrared reflectance spectrum up to 2500 cm-1 for heavily overdoped TI-2201 at 300 K has been analysed under the semiclassical approximation. In this approach, we use two independent sets of parameters to fit the reflectance: the momentum-dependent Fermi velocity vk and the momentum-dependent scattering rate τ-1 (εk). Unlike the case at optimal doping in which the transport properties are dominated by the nodal quasi-particles (QPs), both the lifetime and the Fermi velocity of the QPs in the antinodal region near the Fermi surface increase remarkably for the heavily overdoped samples. Our fitting results indicate that the antinodal QPs tend to dominate the transport properties in heavily overdoped bigb-Tc cuprates.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Dominance of Antinodal Quasiparticles on the Transport Properties of Heavily Overdoped High-To Cuprates: Infrared-Reflectance Spectra

  • Available Online: 28/02/2009

Abstract: The infrared reflectance spectrum up to 2500 cm-1 for heavily overdoped TI-2201 at 300 K has been analysed under the semiclassical approximation. In this approach, we use two independent sets of parameters to fit the reflectance: the momentum-dependent Fermi velocity vk and the momentum-dependent scattering rate τ-1 (εk). Unlike the case at optimal doping in which the transport properties are dominated by the nodal quasi-particles (QPs), both the lifetime and the Fermi velocity of the QPs in the antinodal region near the Fermi surface increase remarkably for the heavily overdoped samples. Our fitting results indicate that the antinodal QPs tend to dominate the transport properties in heavily overdoped bigb-Tc cuprates.

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