Topological Fractional Pumping with Alkaline-Earth-Like Atoms in Synthetic Lattices

Luca Taddia; Eyal Cornfeld; Davide Rossini; Leonardo Mazza; Eran Sela; Rosario Fazio

doi:10.1103/PhysRevLett.118.230402

Topological Fractional Pumping with Alkaline-Earth-Like Atoms in Synthetic Lattices

Luca Taddia, Eyal Cornfeld, Davide Rossini, Leonardo Mazza, Eran Sela, Rosario Fazio

School of Physics and Astronomy

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

Alkaline-earth(-like) atoms, trapped in optical lattices and in the presence of an external gauge field, can form insulating states at given fractional fillings. We will show that, by exploiting these properties, it is possible to realize a topological fractional pump. Our analysis is based on a many-body adiabatic expansion, on simulations with time-dependent matrix product states, and, for a specific form of atom-atom interaction, on an exactly solvable model of fractional pump. The numerical simulations allow us to consider a realistic setup amenable of an experimental realization. As a further consequence, the measure of the center-of-mass shift of the atomic cloud would constitute the first measurement of a many-body Chern number in a cold-atom experiment.

Original language	English
Article number	230402
Journal	Physical Review Letters
Volume	118
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.118.230402
State	Published - 8 Jun 2017

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.118.230402

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title = "Topological Fractional Pumping with Alkaline-Earth-Like Atoms in Synthetic Lattices",

abstract = "Alkaline-earth(-like) atoms, trapped in optical lattices and in the presence of an external gauge field, can form insulating states at given fractional fillings. We will show that, by exploiting these properties, it is possible to realize a topological fractional pump. Our analysis is based on a many-body adiabatic expansion, on simulations with time-dependent matrix product states, and, for a specific form of atom-atom interaction, on an exactly solvable model of fractional pump. The numerical simulations allow us to consider a realistic setup amenable of an experimental realization. As a further consequence, the measure of the center-of-mass shift of the atomic cloud would constitute the first measurement of a many-body Chern number in a cold-atom experiment.",

author = "Luca Taddia and Eyal Cornfeld and Davide Rossini and Leonardo Mazza and Eran Sela and Rosario Fazio",

note = "Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

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doi = "10.1103/PhysRevLett.118.230402",

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AU - Taddia, Luca

AU - Cornfeld, Eyal

AU - Rossini, Davide

AU - Mazza, Leonardo

AU - Sela, Eran

AU - Fazio, Rosario

PY - 2017/6/8

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N2 - Alkaline-earth(-like) atoms, trapped in optical lattices and in the presence of an external gauge field, can form insulating states at given fractional fillings. We will show that, by exploiting these properties, it is possible to realize a topological fractional pump. Our analysis is based on a many-body adiabatic expansion, on simulations with time-dependent matrix product states, and, for a specific form of atom-atom interaction, on an exactly solvable model of fractional pump. The numerical simulations allow us to consider a realistic setup amenable of an experimental realization. As a further consequence, the measure of the center-of-mass shift of the atomic cloud would constitute the first measurement of a many-body Chern number in a cold-atom experiment.

AB - Alkaline-earth(-like) atoms, trapped in optical lattices and in the presence of an external gauge field, can form insulating states at given fractional fillings. We will show that, by exploiting these properties, it is possible to realize a topological fractional pump. Our analysis is based on a many-body adiabatic expansion, on simulations with time-dependent matrix product states, and, for a specific form of atom-atom interaction, on an exactly solvable model of fractional pump. The numerical simulations allow us to consider a realistic setup amenable of an experimental realization. As a further consequence, the measure of the center-of-mass shift of the atomic cloud would constitute the first measurement of a many-body Chern number in a cold-atom experiment.

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DO - 10.1103/PhysRevLett.118.230402

M3 - مقالة

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JO - Physical Review Letters

JF - Physical Review Letters

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ER -

Topological Fractional Pumping with Alkaline-Earth-Like Atoms in Synthetic Lattices

Abstract

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