Generating Multipartite Spin States with Fermionic Atoms in a Driven Optical Lattice

Mikhail Mamaev; Ana Maria Rey

doi:https://doi.org/10.1103/physrevlett.124.240401

doi.org/10.1103/physrevlett.124.240401

Generating Multipartite Spin States with Fermionic Atoms in a Driven Optical Lattice

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Physical Review Letters8.60

Volume: 124, Issue: 24

Published: Jun 16, 2020

Abstract

We propose a protocol for generating generalized GHZ states using ultracold fermions in 3D optical lattices or optical tweezer arrays. The protocol uses the interplay between laser driving, onsite interactions and external trapping confinement to enforce energetic spin- and position-dependent constraints on the atomic motion. These constraints allow us to transform a local superposition into a GHZ state through a stepwise protocol that flips one...

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Paper Details

Title

Generating Multipartite Spin States with Fermionic Atoms in a Driven Optical Lattice

DOI

doi.org/10.1103/physrevlett.124.240401

Published Date

Jun 16, 2020

Journal

Physical Review Letters

Volume

124

Issue

24

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