Topological Thouless pumping of ultracold fermions

Charge transport in a cyclically time-modulated periodic potential, also known as a topological Thouless pump, has been realized in an ultracold gas of fermionic atoms. An electron gas in a one-dimensional periodic potential can be transported even in the absence of a voltage bias if the potential i...

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Veröffentlicht in:	Nature physics 2016-04, Vol.12 (4), p.296-300
Hauptverfasser:	Nakajima, Shuta, Tomita, Takafumi, Taie, Shintaro, Ichinose, Tomohiro, Ozawa, Hideki, Wang, Lei, Troyer, Matthias, Takahashi, Yoshiro
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Schlagworte:	140/125 639/766/119 639/766/483/3926 Atomic Atoms & subatomic particles Charge Charge transfer Classical and Continuum Physics Complex Systems Condensed Matter Physics Electric potential Fermions letter Mathematical and Computational Physics Molecular Optical and Plasma Physics Optical pumping Physics Pumps Theoretical Topology Voltage
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creator	Nakajima, Shuta Tomita, Takafumi Taie, Shintaro Ichinose, Tomohiro Ozawa, Hideki Wang, Lei Troyer, Matthias Takahashi, Yoshiro
description	Charge transport in a cyclically time-modulated periodic potential, also known as a topological Thouless pump, has been realized in an ultracold gas of fermionic atoms. An electron gas in a one-dimensional periodic potential can be transported even in the absence of a voltage bias if the potential is slowly and periodically modulated in time. Remarkably, the transferred charge per cycle is sensitive only to the topology of the path in parameter space. Although this so-called Thouless charge pump was first proposed more than thirty years ago 1 , it has not yet been realized. Here we report the demonstration of topological Thouless pumping using ultracold fermionic atoms in a dynamically controlled optical superlattice. We observe a shift of the atomic cloud as a result of pumping, and extract the topological invariance of the pumping process from this shift. We demonstrate the topological nature of the Thouless pump by varying the topology of the pumping path and verify that the topological pump indeed works in the quantum regime by varying the speed and temperature.
doi_str_mv	10.1038/nphys3622
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subjects	140/125 639/766/119 639/766/483/3926 Atomic Atoms & subatomic particles Charge Charge transfer Classical and Continuum Physics Complex Systems Condensed Matter Physics Electric potential Fermions letter Mathematical and Computational Physics Molecular Optical and Plasma Physics Optical pumping Physics Pumps Theoretical Topology Voltage
title	Topological Thouless pumping of ultracold fermions
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