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Paper detail

Evolution from Non-Fermi to Fermi Liquid Transport Properties by Isovalent Doping in BaFe2(As1-xPx)2 Superconductors

The normal-state charge transport is studied systematically in high-quality single crystals of BaFe$_2$(As$_{1-x}$P$_x$)$_2$ ($0 \leq x \leq 0.71$). By substituting isovalent P for As, the spin-density-wave (SDW) state is suppressed and the dome-shaped superconducting phase ($T_c \lesssim 31$ K) appears. Near the SDW end point ($x\approx0.3$), we observe striking linear temperature ($T$) dependence of resistivity in a wide $T$-range, and remarkable low-$T$ enhancement of Hall coefficient magnitude from the carrier number estimates. We also find that the magnetoresistance apparently violates the Kohler's rule and is well scaled by the Hall angle $Θ_H$ as $Δρ_{xx}/ρ_{xx} \propto \tan^2Θ_H$. These non-Fermi liquid transport anomalies cannot be attributed to the simple multiband effects. These results capture universal features of correlated electron systems in the presence of strong antiferromagnetic fluctuations.

preprint2010arXivOpen access
S. KasaharaT. ShibauchiK. HashimotoK. IkadaS. TonegawaR. OkazakiH. IkedaH. TakeyaK. HirataT. TerashimaY. Matsuda
cond-mat.supr-con
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S. KasaharaT. ShibauchiK. HashimotoK. IkadaS. TonegawaR. OkazakiH. IkedaH. TakeyaK. HirataT. TerashimaY. Matsuda

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