Chiral Mott insulators, Meissner effect, and Laughlin states in quantum ladders

We introduce generic bosonic models exemplifying that chiral Meissner currents can persist in insulating phases of matter. We first consider interacting bosons on a two-leg ladder. The total density sector can be gapped in a bosonic Mott insulator at odd-integer filling, while the relative density s...

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Veröffentlicht in:	Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2015-02, Vol.91 (5), Article 054520
Hauptverfasser:	Petrescu, Alexandru, Le Hur, Karyn
Format:	Artikel
Sprache:	eng
Schlagworte:	Bosons Condensed matter COPPER OXIDE Density FLUID FLOW Fluids INSULATION (ELECTRICAL) Insulators Ladders Meissner effect PHASES Superfluidity
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creator	Petrescu, Alexandru Le Hur, Karyn
description	We introduce generic bosonic models exemplifying that chiral Meissner currents can persist in insulating phases of matter. We first consider interacting bosons on a two-leg ladder. The total density sector can be gapped in a bosonic Mott insulator at odd-integer filling, while the relative density sector remains superfluid due to interchain hopping. Coupling the relative density to gauge fields yields a pseudospin Meissner effect. We show that the same phase arises if the bosons are replaced by spinful fermions confined in Cooper pairs, and find a dual fermionic Mott insulator with spinon currents. We prove that, by tuning the mean density, the Mott insulator with Meissner currents turns into a low-dimensional bosonic v = [1/2] Laughlin state for strong enough repulsive interactions across the ladder rungs. We finally discuss extensions to multileg ladders and bilayers in which spinon superfluids with Meissner currents become possible. We propose two experimental realizations, one with ultracold atoms in the setup of Atala et al. [Nat. Phys. 10, 588 (2014) (http://dx.doi.org/10.1038/nphys2998)] and another with Josephson junction arrays. We also address a Bose-Fermi mixture subject to a magnetic field in connection with the pseudogap phase of high-T sub(c) cuprates.
doi_str_mv	10.1103/PhysRevB.91.054520
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We first consider interacting bosons on a two-leg ladder. The total density sector can be gapped in a bosonic Mott insulator at odd-integer filling, while the relative density sector remains superfluid due to interchain hopping. Coupling the relative density to gauge fields yields a pseudospin Meissner effect. We show that the same phase arises if the bosons are replaced by spinful fermions confined in Cooper pairs, and find a dual fermionic Mott insulator with spinon currents. We prove that, by tuning the mean density, the Mott insulator with Meissner currents turns into a low-dimensional bosonic v = [1/2] Laughlin state for strong enough repulsive interactions across the ladder rungs. We finally discuss extensions to multileg ladders and bilayers in which spinon superfluids with Meissner currents become possible. We propose two experimental realizations, one with ultracold atoms in the setup of Atala et al. [Nat. Phys. 10, 588 (2014) (http://dx.doi.org/10.1038/nphys2998)] and another with Josephson junction arrays. We also address a Bose-Fermi mixture subject to a magnetic field in connection with the pseudogap phase of high-T sub(c) cuprates.</description><identifier>ISSN: 1098-0121</identifier><identifier>EISSN: 1550-235X</identifier><identifier>DOI: 10.1103/PhysRevB.91.054520</identifier><language>eng</language><subject>Bosons ; Condensed matter ; COPPER OXIDE ; Density ; FLUID FLOW ; Fluids ; INSULATION (ELECTRICAL) ; Insulators ; Ladders ; Meissner effect ; PHASES ; Superfluidity</subject><ispartof>Physical review. 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subjects	Bosons Condensed matter COPPER OXIDE Density FLUID FLOW Fluids INSULATION (ELECTRICAL) Insulators Ladders Meissner effect PHASES Superfluidity
title	Chiral Mott insulators, Meissner effect, and Laughlin states in quantum ladders
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