Reduced Hall carrier density in the overdoped strange metal regime of cuprate superconductors
Author: ["Carsten Putzke","Siham Benhabib","Wojciech Tabis","Jake Ayres","Zhaosheng Wang","Liam Malone","Salvatore Licciardello","Jianming Lu","Takeshi Kondo","Tsunehiro Takeuchi","Nigel E. Hussey","John R. Cooper","Antony Carrington"]
Publication: Nature Physics
CITE.CC academic search helps you expand the influence of your papers.
Abstract
Efforts to understand the microscopic origin of superconductivity in the cuprates are dependent on knowledge of the normal state. The Hall number in the low-temperature, high-field limit nH(0) has a particular importance because, within conventional transport theory, it is simply related to the number of charge carriers, so its evolution with doping gives crucial information about the nature of the charge transport. Here we report a study of the high-field Hall coefficient of the single-layer cuprates Tl2Ba2CuO6+δ (Tl2201) and (Pb/La)-doped Bi2Sr2CuO6+δ (Bi2201), which shows how nH(0) evolves in the overdoped—so-called strange metal—regime of cuprates. We find that nH(0) increases smoothly from p to 1 + p, where p is the number of holes doped into the parent insulating state, over a wide range of doping. The evolution of nH correlates with the emergence of the anomalous linear-in-temperature term in the low-temperature in-plane resistivity. The results could suggest that quasiparticle decoherence extends to dopings well beyond the pseudogap regime. A study of the high-field Hall coefficient in thallium- and bismuth-based single-layer cuprates demonstrates a smooth evolution of this quantity from p to 1 + p over a wide doping range.
Cite this article
Putzke, C., Benhabib, S., Tabis, W. et al. Reduced Hall carrier density in the overdoped strange metal regime of cuprate superconductors. Nat. Phys. (2021). https://doi.org/10.1038/s41567-021-01197-0
