\begin{document}$T_{\rm{c}}$\end{document} cuprates. In the hole-doped iron-based superconductors, the Hall coefficient changes its sign in low temperatures, and meanwhile the resistivity shows a broad hump in the same temperature range. Such a behavior is proposed as a crossover from incoherent to coherent transport. The Seebeck coefficients of iron-based superconductors also show remarkable differences from the cuprates. In iron-based superconductors, the absolute value of Seebeck coefficients in the normal state becomes the largest at the optimally doping point with highest \begin{document}$T_{\rm{c}}$\end{document}, which is probably related to the strong inter-band scattering. The Nernst effect in the normal state of iron-based superconductors indicates that superconducting phase fluctuations is not obvious above \begin{document}$T_{\rm{c}}$\end{document}, which is also significantly different from the cuprates. These unusual thermoelectric properties observed in iron-based superconductors have not been observed in the nickel-based pnictide superconductors with the analogous structure, i.e., LaNiAsO, and the nickel-based superconductors behave more like a usual metal. All these results above illustrate that these unusual transport properties of iron-based superconductors are inherently associated with their high temperature superconductivity, and these factors should be taken into account in the theory on its superconducting mechanism."> - 必威体育下载

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Li Miao-Cong, Tao Qian, Xu Zhu-An
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  • Abstract views:8009
  • PDF Downloads:564
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  • Received Date:04 November 2020
  • Accepted Date:25 December 2020
  • Available Online:24 December 2020
  • Published Online:05 January 2021

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