Conductance oscillations through double slits in a quantum wire

Low temperature magnetoconductance oscillation measurements are reported for a deformable quantum ring. The quantum ring is formed from a two-dimensional electron gas in a GaAs/Ale3Gaa,+s heterostructure via electrostatic gates: outside gates define the outer perimeter with two quantum point contact

We have studied conductance oscillations of a quantum dot by varying the gate potential of one of the gate pairs, that forms the quantum dot, while the other pair was kept at a constant potential. The potential was varied from pinch-off to a level where two or more transverse modes were transmitted

Transport phenomena in a double-bend quantum structure fabricated in the two-dimensional electron gas of a modulation doped GaAs/AlGaAs structure, are studied experimentally. The structure consists of an electrostatically defined quantum dot with two one-dimensional wires connected on opposite corne

We study the magneto-resistance of a V-grooved GaAs quantum-wire ÿeld-e ect transistor (QWR-FET) realized by selective growth of metalorganic vapor phase epitaxy. At low temperatures, the magneto-resistance of the wire shows reproducible uctuations resulting from the quantum interference of electron