2016
DOI: 10.1103/physreva.93.033614
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Spin and charge modulations in a single-hole-doped Hubbard ladder: Verification with optical lattice experiments

Abstract: We show that pronounced modulations in spin and charge densities can be induced by the insertion of a single hole in an otherwise half-filled two-leg Hubbard ladder. Accompanied with these modulations is a loosely bound structure of the doped charge with a spin-1/2, in contrast to the tightly bound case where such modulations are absent. These behaviors are caused by the interference of the Berry phases associated with a string of flipped spins (or "phase strings") left behind as a hole travels through a spin … Show more

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Cited by 9 publications
(15 citation statements)
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“…As shown in Fig. 2 in the single hole case, all the Nagaoka polaron states (with S > 1/2) disappear in the so-called σ -Hubbard model 34 , in which only a conventional quasiparticle phase survives (cf. the smooth dashed curve in Fig.…”
Section: Many-body Localization In the Hubbard Modelmentioning
confidence: 86%
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“…As shown in Fig. 2 in the single hole case, all the Nagaoka polaron states (with S > 1/2) disappear in the so-called σ -Hubbard model 34 , in which only a conventional quasiparticle phase survives (cf. the smooth dashed curve in Fig.…”
Section: Many-body Localization In the Hubbard Modelmentioning
confidence: 86%
“…By contrast, the Nagaoka polaron phases shown in Fig. 2 disappear in the so-called σ -Hubbard model 34 , as shown by the dashed curve, where the doped hole remains a conventional quasiparticle throughout the accessible regime of β . This σ -Hubbard model has been previously studied in ref.…”
Section: Many-body Localization In the Hubbard Modelmentioning
confidence: 92%
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