Litcius/Paper detail

Improving cold-atom sensors with quantum entanglement: Prospects and challenges

Stuart S. Szigeti, Onur Hosten, Simon A. Haine

2021Applied Physics Letters59 citationsDOIOpen Access PDF

Abstract

Quantum entanglement has been generated and verified in cold-atom experiments and used to make atom-interferometric measurements below the shot-noise limit. However, current state-of-the-art cold-atom devices exploit separable (i.e., unentangled) atomic states. This perspective piece asks the question: can entanglement usefully improve cold-atom sensors, in the sense that it gives new sensing capabilities unachievable with current state-of-the-art devices? We briefly review the state-of-the-art in precision cold-atom sensing, focusing on clocks and inertial sensors, identifying the potential benefits entanglement could bring to these devices, and the challenges that need to be overcome to realize these benefits. We survey demonstrated methods of generating metrologically useful entanglement in cold-atom systems, note their relative strengths and weaknesses, and assess their prospects for near-to-medium term quantum-enhanced cold-atom sensing.

Topics & Concepts

Quantum entanglementQuantum sensorExploitComputer sciencePerspective (graphical)Current (fluid)Inertial frame of referenceQuantum metrologyQuantumQuantum technologyElectronic engineeringTerm (time)PhysicsKey (lock)Separable spaceQuantum imagingSystems engineeringQuantum computerQuantum opticsQuantum informationCold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time StandardsMechanical and Optical Resonators