Litcius/Paper detail

Robust Bilayer Charge Pumping for Spin- and Density-Resolved Quantum Gas Microscopy

Joannis Koepsell, Sarah Hirthe, Dominik Bourgund, Pimonpan Sompet, Jayadev Vijayan, Guillaume Salomon, Christian Groß, Immanuel Bloch

2020Physical Review Letters86 citationsDOIOpen Access PDF

Abstract

Quantum gas microscopy has emerged as a powerful new way to probe quantum many-body systems at the microscopic level. However, layered or efficient spin-resolved readout methods have remained scarce as they impose strong demands on the specific atomic species and constrain the simulated lattice geometry and size. Here we present a novel high-fidelity bilayer readout, which can be used for full spin- and density-resolved quantum gas microscopy of two-dimensional systems with arbitrary geometry. Our technique makes use of an initial Stern-Gerlach splitting into adjacent layers of a highly stable vertical superlattice and subsequent charge pumping to separate the layers by 21 μm. This separation enables independent high-resolution images of each layer. We benchmark our method by spin- and density-resolving two-dimensional Fermi-Hubbard systems. Our technique furthermore enables the access to advanced entropy engineering schemes, spectroscopic methods, or the realization of tunable bilayer systems.

Topics & Concepts

QuantumSuperlatticePhysicsCondensed matter physicsBilayerOptical latticeSpin (aerodynamics)Materials scienceQuantum mechanicsSuperfluidityChemistryThermodynamicsBiochemistryMembranePhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaElectronic and Structural Properties of Oxides