Litcius/Paper detail

Two-Dimensional Momentum State Lattices

Shraddha Agrawal, Sai Naga Manoj Paladugu, Bryce Gadway

2024PRX Quantum11 citationsDOIOpen Access PDF

Abstract

Building on the development of momentum state lattices (MSLs) over the past decade, we introduce a simple extension of this technique to higher dimensions. Based on the selective addressing of unique Bragg resonances in matter-wave systems, MSLs have enabled the realization of tight-binding models with tunable disorder, gauge fields, non-Hermiticity, and other features. Here, we examine and outline an experimental approach to building scalable and tunable tight-binding models in two dimensions describing the laser-driven dynamics of atoms in momentum space. Using numerical simulations, we highlight some of the simplest models and types of phenomena this system is well suited to address, including flat-band models with kinetic frustration and flux lattices supporting topological boundary states. Finally, we discuss many of the direct extensions to this model, including the introduction of disorder and non-Hermiticity, which will enable the exploration of new transport and localization phenomena in higher dimensions. Published by the American Physical Society 2024

Topics & Concepts

Momentum (technical analysis)State (computer science)Statistical physicsPhysicsTheoretical physicsMathematicsEconomicsAlgorithmFinancial economicsCold Atom Physics and Bose-Einstein CondensatesTopological Materials and PhenomenaQuantum, superfluid, helium dynamics