Magnetic field reveals vanishing Hall response in the normal state of stripe-ordered cuprates

Zhenzhong Shi, P. G. Baity, J. Terzic, Bal K. Pokharel, T. Sasagawa and Dragana Popović ()
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Zhenzhong Shi: Florida State University
P. G. Baity: Florida State University
J. Terzic: Florida State University
Bal K. Pokharel: Florida State University
T. Sasagawa: Tokyo Institute of Technology
Dragana Popović: Florida State University

Nature Communications, 2021, vol. 12, issue 1, 1-8

Abstract: Abstract The origin of the weak insulating behavior of the resistivity, i.e. $${\rho }_{xx}\propto {\mathrm{ln}}\,(1/T)$$ ρ x x ∝ ln ( 1 / T ) , revealed when magnetic fields (H) suppress superconductivity in underdoped cuprates has been a longtime mystery. Surprisingly, the high-field behavior of the resistivity observed recently in charge- and spin-stripe-ordered La-214 cuprates suggests a metallic, as opposed to insulating, high-field normal state. Here we report the vanishing of the Hall coefficient in this field-revealed normal state for all $$T\

Date: 2021
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DOI: 10.1038/s41467-021-24000-3

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