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Quantum-Enhanced Magnetometry at Optimal Number Density

Charikleia Troullinou, Vito Giovanni Lucivero, Morgan W. Mitchell

2023Physical Review Letters20 citationsDOIOpen Access PDF

Abstract

We study the use of squeezed probe light and evasion of measurement backaction to enhance the sensitivity and measurement bandwidth of an optically pumped magnetometer (OPM) at sensitivity-optimal atom number density. By experimental observation, and in agreement with quantum noise modeling, a spin-exchange-limited OPM probed with off-resonance laser light is shown to have an optimal sensitivity determined by density-dependent quantum noise contributions. Application of squeezed probe light boosts the OPM sensitivity beyond this laser-light optimum, allowing the OPM to achieve sensitivities that it cannot reach with coherent-state probing at any density. The observed quantum sensitivity enhancement at optimal number density is enabled by measurement backaction evasion.

Topics & Concepts

MagnetometerSensitivity (control systems)PhysicsQuantumQuantum sensorLaserSqueezed coherent stateQuantum noiseNoise (video)OpticsQuantum mechanicsMagnetic fieldQuantum entanglementCoherent statesQuantum networkElectronic engineeringComputer scienceEngineeringArtificial intelligenceImage (mathematics)Atomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein CondensatesQuantum optics and atomic interactions
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