Publication | Open Access
Magnetically Tunable Kondo–Aharonov-Bohm Effect in a Triangular Quantum Dot
97
Citations
28
References
2006
Year
EngineeringDiscrete Orbital SymmetryMagnetic ResonanceTopological Quantum StateMagnetismQuantum MaterialsMagnetic Topological InsulatorPerpendicular Magnetic FieldQuantum SciencePhysicsQuantum DeviceIdentical Quantum DotsTopological PhaseQuantum MagnetismSpintronicsNatural SciencesApplied PhysicsCondensed Matter PhysicsDisordered Quantum SystemTriangular Quantum Dot
The role of discrete orbital symmetry in mesoscopic physics is manifested in a system consisting of three identical quantum dots forming an equilateral triangle. Under a perpendicular magnetic field, this system demonstrates a unique combination of Kondo and Aharonov-Bohm features due to an interplay between continuous [spin-rotation SU(2)] and discrete (permutation C3v) symmetries, as well as U(1) gauge invariance. The conductance as a function of magnetic flux displays sharp enhancement or complete suppression depending on contact setups.
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