Spin-1 Haldane Phase in a Chain of Rydberg Atoms

J. Mögerle; K. Brechtelsbauer; A. T. Gea-Caballero; J. Prior; G. Emperauger; G. Bornet; C. Chen; T. Lahaye; A. Browaeys; H. P. Büchler

doi:10.1103/PRXQuantum.6.020332

Spin-1 Haldane Phase in a Chain of Rydberg Atoms

J. Mögerle
, K. Brechtelsbauer
, A. T. Gea-Caballero
, J. Prior
, G. Emperauger
, G. Bornet
, C. Chen
, T. Lahaye
, A. Browaeys
, H. P. Büchler

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

Abstract

We present a protocol to implement a spin-1 chain in Rydberg systems using three Rydberg states close to a Förster resonance. In addition to dipole-dipole interactions, strong van der Waals interactions naturally appear due to the presence of the Förster resonance and give rise to a highly tunable Hamiltonian. The resulting phase diagram is studied using the infinite density-matrix renormalization group and reveals a highly robust Haldane phase-a prime example of a symmetry-protected topological phase. We find experimentally accessible parameters to probe the Haldane phase in current Rydberg systems, and demonstrate an efficient adiabatic preparation scheme. This paves the way to probe the remarkable properties of spin fractionalization in the Haldane phase.

Original language	English
Article number	020332
Journal	PRX Quantum
Volume	6
Issue number	2
DOIs	https://doi.org/10.1103/PRXQuantum.6.020332
Publication status	Published - 1 Apr 2025
Externally published	Yes

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title = "Spin-1 Haldane Phase in a Chain of Rydberg Atoms",

abstract = "We present a protocol to implement a spin-1 chain in Rydberg systems using three Rydberg states close to a F{\"o}rster resonance. In addition to dipole-dipole interactions, strong van der Waals interactions naturally appear due to the presence of the F{\"o}rster resonance and give rise to a highly tunable Hamiltonian. The resulting phase diagram is studied using the infinite density-matrix renormalization group and reveals a highly robust Haldane phase-a prime example of a symmetry-protected topological phase. We find experimentally accessible parameters to probe the Haldane phase in current Rydberg systems, and demonstrate an efficient adiabatic preparation scheme. This paves the way to probe the remarkable properties of spin fractionalization in the Haldane phase.",

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T1 - Spin-1 Haldane Phase in a Chain of Rydberg Atoms

AU - Mögerle, J.

AU - Brechtelsbauer, K.

AU - Gea-Caballero, A. T.

AU - Prior, J.

AU - Emperauger, G.

AU - Bornet, G.

AU - Chen, C.

AU - Lahaye, T.

AU - Browaeys, A.

AU - Büchler, H. P.

PY - 2025/4/1

Y1 - 2025/4/1

N2 - We present a protocol to implement a spin-1 chain in Rydberg systems using three Rydberg states close to a Förster resonance. In addition to dipole-dipole interactions, strong van der Waals interactions naturally appear due to the presence of the Förster resonance and give rise to a highly tunable Hamiltonian. The resulting phase diagram is studied using the infinite density-matrix renormalization group and reveals a highly robust Haldane phase-a prime example of a symmetry-protected topological phase. We find experimentally accessible parameters to probe the Haldane phase in current Rydberg systems, and demonstrate an efficient adiabatic preparation scheme. This paves the way to probe the remarkable properties of spin fractionalization in the Haldane phase.

AB - We present a protocol to implement a spin-1 chain in Rydberg systems using three Rydberg states close to a Förster resonance. In addition to dipole-dipole interactions, strong van der Waals interactions naturally appear due to the presence of the Förster resonance and give rise to a highly tunable Hamiltonian. The resulting phase diagram is studied using the infinite density-matrix renormalization group and reveals a highly robust Haldane phase-a prime example of a symmetry-protected topological phase. We find experimentally accessible parameters to probe the Haldane phase in current Rydberg systems, and demonstrate an efficient adiabatic preparation scheme. This paves the way to probe the remarkable properties of spin fractionalization in the Haldane phase.

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DO - 10.1103/PRXQuantum.6.020332

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JO - PRX Quantum

JF - PRX Quantum

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M1 - 020332

ER -

Spin-1 Haldane Phase in a Chain of Rydberg Atoms

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