Metal-to-Insulator Crossover in the Low-Temperature Normal State of
  Bi_{2}Sr_{2-x}La_{x}CuO_{6+\delta}

A. Maeda; C. Castellani; F. F. Balakirev; G. S. Boebinger; G. S. Boebinger; H. Y. Hwang; J. B. Betts; K. Yamada; P. Fournier; P. W. Anderson; S. D. Obertelli; S. Ono; T. Murayama; Y. Ando; Y. Ando; Y. Ando; Y. Ando; Y. Ando; Y. Ando; Y. Idemoto; Y. Kubo; Yoichi Ando

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Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi_{2}Sr_{2-x}La_{x}CuO_{6+\delta}

Authors: A. Maeda
C. Castellani
F. F. Balakirev
G. S. Boebinger
G. S. Boebinger
H. Y. Hwang
J. B. Betts
K. Yamada
P. Fournier
P. W. Anderson
S. D. Obertelli
S. Ono
T. Murayama
Y. Ando
Y. Ando
Y. Ando
Y. Ando
Y. Ando
Y. Ando
Y. Idemoto
Y. Kubo
Yoichi Ando
Publication date: 25 May 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We measure the normal-state in-plane resistivity of La-doped Bi-2201 single crystals at low temperatures by suppressing superconductivity with 60-T pulsed magnetic fields. With decreasing hole doping, we observe a crossover from a metallic to insulating behavior in the low-temperature normal state. This crossover is estimated to occur near 1/8 doping, well inside the underdoped regime, and not at optimum doping as reported for other cuprates. The insulating regime is marked by a logarithmic temperature dependence of the resistivity over two decades of temperature, suggesting that a peculiar charge localization is common to the cuprates.Comment: 4 pages, 5 figures, accepted for publication in PR

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