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W4320914913 abstract "Strongly correlated electron systems host a variety of poorly understood correlations in their high-temperature normal state. Unlike ordered phases defined by order parameters, regions of the normal state are often defined through unconventional properties such as strange metallic transport or spectroscopic pseudogaps. Characterizing the microscopic correlations in the normal state is necessary to elucidate mechanisms that lead to these properties and their connection to ground-state orders. Here we establish the presence of intertwined charge and spin stripes in the strange metal normal state of the Hubbard model using determinant quantum Monte Carlo calculations. The charge and spin density waves constituting the stripes are fluctuating and short ranged; yet they obey a mutual commensurability relation and remain microscopically interlocked, as evidenced through measurements of three-point spin-spin-hole correlation functions. Our findings demonstrate the ability of many-body numerical simulations to unravel the microscopic correlations that define quantum states of matter." @default.
W4320914913 created "2023-02-16" @default.
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W4320914913 date "2023-02-15" @default.
W4320914913 modified "2023-10-13" @default.
W4320914913 title "Fluctuating intertwined stripes in the strange metal regime of the Hubbard model" @default.
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W4320914913 doi "https://doi.org/10.1103/physrevb.107.085126" @default.
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