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W2511201357 abstract "Recent experiments performed on cuprates and alkali-doped fullerides have demonstated that key signatures of superconductivity can be induced above the equilibrium critical temperature by optical modulation. These observations in disparate physical systems may indicate a general underlying mechanism. Multiple theories have been proposed, but these either consider specific features, such as competing instabilities, or focus on conventional BCS-type superconductivity. Here we show that periodic driving can enhance electron pairing in strongly-correlated systems. Focusing on the strongly-repulsive limit of the doped Hubbard model, we investigate in-gap, spatially inhomogeneous, on-site modulations. We demonstrate that such modulations substantially reduce electronic hopping, while simultaneously sustaining super-exchange interactions and pair hopping via driving-induced virtual charge excitations. We calculate real-time dynamics for the one-dimensional case, starting from zero and finite temperature initial states, and show that enhanced singlet--pair correlations emerge quickly and robustly in the out-of-equilibrium many-body state. Our results reveal a fundamental pairing mechanism that might underpin optically induced superconductivity in some strongly correlated quantum materials." @default.
W2511201357 created "2016-09-16" @default.
W2511201357 creator A5000882812 @default.
W2511201357 creator A5013655616 @default.
W2511201357 creator A5024458256 @default.
W2511201357 creator A5061103540 @default.
W2511201357 creator A5063258718 @default.
W2511201357 date "2017-08-01" @default.
W2511201357 modified "2023-09-27" @default.
W2511201357 title "Enhancement of superexchange pairing in the periodically driven Hubbard model" @default.
W2511201357 cites W1509382463 @default.
W2511201357 cites W1550516781 @default.
W2511201357 cites W1633442599 @default.
W2511201357 cites W1681334650 @default.
W2511201357 cites W1805096267 @default.
W2511201357 cites W1806543486 @default.
W2511201357 cites W1936828924 @default.
W2511201357 cites W1957416724 @default.
W2511201357 cites W1972445258 @default.
W2511201357 cites W1977309929 @default.
W2511201357 cites W1979308046 @default.
W2511201357 cites W1982550438 @default.
W2511201357 cites W1986168108 @default.
W2511201357 cites W1987838605 @default.
W2511201357 cites W1997393667 @default.
W2511201357 cites W1998391240 @default.
W2511201357 cites W2001410953 @default.
W2511201357 cites W2001894531 @default.
W2511201357 cites W2003178253 @default.
W2511201357 cites W2004871937 @default.
W2511201357 cites W2005526678 @default.
W2511201357 cites W2008569075 @default.
W2511201357 cites W2016137658 @default.
W2511201357 cites W2020595981 @default.
W2511201357 cites W2023727159 @default.
W2511201357 cites W2025722935 @default.
W2511201357 cites W2033237631 @default.
W2511201357 cites W2034251480 @default.
W2511201357 cites W2036604884 @default.
W2511201357 cites W2040785320 @default.
W2511201357 cites W2045199537 @default.
W2511201357 cites W2046717976 @default.
W2511201357 cites W2049545343 @default.
W2511201357 cites W2066525623 @default.
W2511201357 cites W2066768812 @default.
W2511201357 cites W2067668662 @default.
W2511201357 cites W2076828243 @default.
W2511201357 cites W2078367279 @default.
W2511201357 cites W2078513468 @default.
W2511201357 cites W2085247228 @default.
W2511201357 cites W2086612234 @default.
W2511201357 cites W2087045470 @default.
W2511201357 cites W2088638151 @default.
W2511201357 cites W2093214152 @default.
W2511201357 cites W2093470517 @default.
W2511201357 cites W2096391265 @default.
W2511201357 cites W2114148415 @default.
W2511201357 cites W2147547703 @default.
W2511201357 cites W2150628567 @default.
W2511201357 cites W2153601128 @default.
W2511201357 cites W2155146555 @default.
W2511201357 cites W2159116135 @default.
W2511201357 cites W2173495090 @default.
W2511201357 cites W2201156380 @default.
W2511201357 cites W2219078926 @default.
W2511201357 cites W2258635766 @default.
W2511201357 cites W2267783880 @default.
W2511201357 cites W2272806240 @default.
W2511201357 cites W2277222960 @default.
W2511201357 cites W2281667085 @default.
W2511201357 cites W2329019879 @default.
W2511201357 cites W2468921374 @default.
W2511201357 cites W2593582880 @default.
W2511201357 cites W3099196447 @default.
W2511201357 cites W3103713775 @default.
W2511201357 cites W3105064429 @default.
W2511201357 cites W3106216759 @default.
W2511201357 cites W3124300093 @default.
W2511201357 cites W4230451384 @default.
W2511201357 cites W4233847914 @default.
W2511201357 cites W4251024638 @default.
W2511201357 cites W843439181 @default.
W2511201357 doi "https://doi.org/10.1103/physrevb.96.085104" @default.
W2511201357 hasPublicationYear "2017" @default.
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