Anomalous Hall resistance in bilayer quantum Hall systems

Ezawa, Zyun F.; Suzuki, Sei; Tsitsishvili, G.

doi:10.1103/physrevb.76.045307

Cited by 12 publications

(19 citation statements)

References 18 publications

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“…This is precisely the same as in the ν = 1 bilayer QH system. Indeed, the supercurrent leads to the same formula [10] of the anomalous Hall resistivity for the counterflow and drag geometries as the one at ν = 1. What is remarkable is that the total current flowing the bilayer system is a supercurrent carrying solely spins and not charges in the counterflow geometry.…”

Section: Introductionmentioning

confidence: 68%

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Spin supercurrent in the canted antiferromagnetic phase

2013

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The spin and layer (pseudospin) degrees of freedom are entangled coherently in the canted antiferromagnetic phase of the bilayer quantum Hall system at the filling factor ν = 2. There emerges a complex Goldstone mode describing such a combined degree of freedom. In the zero tunneling-interaction limit (∆SAS → 0), its phase field provokes a supercurrent carrying both spin and charge within each layer. The Hall resistance is predicted to become anomalous precisely as in the ν = 1 bilayer system in the counterflow and drag experiments. Furthermore, it is shown that the total current flowing in the bilayer system is a supercurrent carrying solely spins in the counterflow geometry. It is intriguing that all these phenomena occur only in imbalanced bilayer systems.

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Section: Introductionmentioning

confidence: 68%

“…Other examples are the anomalous behavior of the Hall resistance reported in counterflow experiments [7,8] and in drag experiments [9]. They are triggered by the supercurrent within each layer [10]. Quite recently, careful experiments [11] were performed to explore the condition for the tunneling current to be dissipationless.…”

Section: Introductionmentioning

confidence: 99%

Spin supercurrent in the canted antiferromagnetic phase

2013

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“…A bilayer system consists of the two layers and the volume between them. The Coulomb energy in the volume is minimized [12] by the condition…”

Section: E Quantum Hall Effectsmentioning

confidence: 99%

“…Other examples are the anomalous behavior of the Hall resistance reported in counterflow experiments [8,9] and in drag experiments [10]. They are triggered by the Josephson supercurrent within each layer [12].…”

Section: Introductionmentioning

confidence: 96%

“…A related topic has been investigated in [20]. The supercurrent in the CAF phase leads to the same formula [12] for the anomalous Hall resistivity for the counterflow and drag geometries as the one at ν = 1. What is remarkable is that the total current flowing in the CAF phase is a Josephson supercurrent carrying solely spins in the counterflow geometry.…”

Section: Introductionmentioning

confidence: 97%

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Nambu–Goldstone modes and the Josephson supercurrent in the bilayer quantum Hall system

Hama

Tsitsishvili

Ezawa

2013

Progress of Theoretical and Experimental Physics

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An interlayer phase coherence develops spontaneously in the bilayer quantum Hall system at the filling factor ν = 1. On the other hand, the spin and pseudospin degrees of freedom are entangled coherently in the canted antiferromagnetic phase of the bilayer quantum Hall system at the filling factor ν = 2. There emerges a complex Nambu-Goldstone mode with a linear dispersion in the zero tunneling-interaction limit for both cases. Then its phase field provokes a Josephson supercurrent in each layer, which is dissipationless as in a superconductor. We study what kind of phase coherence the Nambu-Goldstone mode develops in association with the Josephson supercurrent and its effect on the Hall resistance in the bilayer quantum Hall system at ν = 1, 2, by employing the Grassmannian formalism.

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