Numerical evidence of fluctuating stripes in the normal state of high-Tc cuprate superconductors

Edwin W. Huang; Christian B. Mendl; Shenxiu Liu; Steve Johnston; Hong Chen Jiang; Brian Moritz; Thomas P. Devereaux

doi:10.1126/science.aak9546

Numerical evidence of fluctuating stripes in the normal state of high-T_c cuprate superconductors

Edwin W. Huang, Christian B. Mendl, Shenxiu Liu, Steve Johnston, Hong Chen Jiang, Brian Moritz, Thomas P. Devereaux

Research output: Contribution to journal › Article › peer-review

159 Scopus citations

Abstract

Upon doping, Mott insulators often exhibit symmetry breaking where charge carriers and their spins organize into patterns known as stripes. For high–transition temperature cuprate superconductors, stripes are widely suspected to exist in a fluctuating form. We used numerically exact determinant quantum Monte Carlo calculations to demonstrate dynamical stripe correlations in the three-band Hubbard model, which represents the local electronic structure of the copper-oxygen plane. Our results, which are robust to varying parameters, cluster size, and boundary conditions, support the interpretation of experimental observations such as the hourglass magnetic dispersion and the Yamada plot of incommensurability versus doping in terms of the physics of fluctuating stripes. These findings provide a different perspective on the intertwined orders emerging from the cuprates’ normal state.

Original language	English
Pages (from-to)	1161-1164
Number of pages	4
Journal	Science
Volume	358
Issue number	6367
DOIs	https://doi.org/10.1126/science.aak9546
State	Published - 1 Dec 2017
Externally published	Yes

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title = "Numerical evidence of fluctuating stripes in the normal state of high-Tc cuprate superconductors",

abstract = "Upon doping, Mott insulators often exhibit symmetry breaking where charge carriers and their spins organize into patterns known as stripes. For high–transition temperature cuprate superconductors, stripes are widely suspected to exist in a fluctuating form. We used numerically exact determinant quantum Monte Carlo calculations to demonstrate dynamical stripe correlations in the three-band Hubbard model, which represents the local electronic structure of the copper-oxygen plane. Our results, which are robust to varying parameters, cluster size, and boundary conditions, support the interpretation of experimental observations such as the hourglass magnetic dispersion and the Yamada plot of incommensurability versus doping in terms of the physics of fluctuating stripes. These findings provide a different perspective on the intertwined orders emerging from the cuprates{\textquoteright} normal state.",

author = "Huang, {Edwin W.} and Mendl, {Christian B.} and Shenxiu Liu and Steve Johnston and Jiang, {Hong Chen} and Brian Moritz and Devereaux, {Thomas P.}",

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AU - Huang, Edwin W.

AU - Mendl, Christian B.

AU - Liu, Shenxiu

AU - Johnston, Steve

AU - Jiang, Hong Chen

AU - Moritz, Brian

AU - Devereaux, Thomas P.

PY - 2017/12/1

Y1 - 2017/12/1

N2 - Upon doping, Mott insulators often exhibit symmetry breaking where charge carriers and their spins organize into patterns known as stripes. For high–transition temperature cuprate superconductors, stripes are widely suspected to exist in a fluctuating form. We used numerically exact determinant quantum Monte Carlo calculations to demonstrate dynamical stripe correlations in the three-band Hubbard model, which represents the local electronic structure of the copper-oxygen plane. Our results, which are robust to varying parameters, cluster size, and boundary conditions, support the interpretation of experimental observations such as the hourglass magnetic dispersion and the Yamada plot of incommensurability versus doping in terms of the physics of fluctuating stripes. These findings provide a different perspective on the intertwined orders emerging from the cuprates’ normal state.

AB - Upon doping, Mott insulators often exhibit symmetry breaking where charge carriers and their spins organize into patterns known as stripes. For high–transition temperature cuprate superconductors, stripes are widely suspected to exist in a fluctuating form. We used numerically exact determinant quantum Monte Carlo calculations to demonstrate dynamical stripe correlations in the three-band Hubbard model, which represents the local electronic structure of the copper-oxygen plane. Our results, which are robust to varying parameters, cluster size, and boundary conditions, support the interpretation of experimental observations such as the hourglass magnetic dispersion and the Yamada plot of incommensurability versus doping in terms of the physics of fluctuating stripes. These findings provide a different perspective on the intertwined orders emerging from the cuprates’ normal state.

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Numerical evidence of fluctuating stripes in the normal state of high-T_c cuprate superconductors

Abstract

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