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Coherent tunnelling across a quantum point contact in the quantum Hall regime

The unique properties of quantum Hall devices arise from the ideal one-dimensional edge states that form in a two-dimensional electron system at high magnetic field. Tunnelling between edge states across a quantum point contact (QPC) has already revealed rich physics, like fractionally charged excitations, or chiral Luttinger liquid. Thanks to scanning gate microscopy, we show that a single QPC can turn into an interferometer for specific potential landscapes. Spectroscopy, magnetic field and temperature dependences of electron transport reveal a quantitatively consistent interferometric behavior of the studied QPC. To explain this unexpected behavior, we put forward a new model which relies on the presence of a quantum Hall island at the centre of the constriction as well as on different tunnelling paths surrounding the island, thereby creating a new type of interferometer. This work sets the ground for new device concepts based on coherent tunnelling.

preprint2013arXivOpen access
F. MartinsS. FanielB. RosenowH. SellierS. HuantM. G. PalaL. DesplanqueX. WallartV. BayotB. Hackens
cond-mat.mes-hallquant-ph
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F. MartinsS. FanielB. RosenowH. SellierS. HuantM. G. PalaL. DesplanqueX. WallartV. BayotB. Hackens

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