Observation of chiral edge states with neutral fermions in synthetic Hall ribbons

Observation of chiral edge states with neutral fermions in synthetic Hall ribbons

Chiral edge states are a hallmark of quantum Hall physics. In electronic systems, they appear as a macroscopic consequence of the cyclotron orbits induced by a magnetic field, which are naturally truncated at the physical boundary of the sample. Here we report on the experimental realization of chir...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2015-09, Vol.349 (6255), p.1510-1513
Hauptverfasser: Mancini, M., Pagano, G., Cappellini, G., Livi, L., Rider, M., Catani, J., Sias, C., Zoller, P., Inguscio, M., Dalmonte, M., Fallani, L.
Format: Artikel
Sprache:eng
Schlagworte:
Arrays
Atoms & subatomic particles
Cold atoms
Dynamical systems
Dynamics
Fermions
Magnetic fields
Orbits
Quantum physics
Research Methodology
Ribbons
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Zusammenfassung:Chiral edge states are a hallmark of quantum Hall physics. In electronic systems, they appear as a macroscopic consequence of the cyclotron orbits induced by a magnetic field, which are naturally truncated at the physical boundary of the sample. Here we report on the experimental realization of chiral edge states in a ribbon geometry with an ultracold gas of neutral fermions subjected to an artificial gauge field. By imaging individual sites along a synthetic dimension, encoded in the nuclear spin of the atoms, we detect the existence of the edge states and observe the edge-cyclotron orbits induced during quench dynamics. The realization of fermionic chiral edge states opens the door for edge state interferometry and the study of non-Abelian anyons in atomic systems.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaa8736