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Excited-State Lifetime of NV Centers for All-Optical Magnetic Field Sensing

Ludwig Horsthemke, Jens Pogorzelski, Dennis Stiegekötter, Frederik Hoffmann, Lutz Langguth, Robert Staacke, Christian Laube, Wolfgang Knolle, Markus Gregor, Peter Glösekötter

2024Sensors10 citationsDOIOpen Access PDF

Abstract

We investigate the magnetic field-dependent fluorescence lifetime of microdiamond powder containing a high density of nitrogen-vacancy centers. This constitutes a non-intensity quantity for robust, all-optical magnetic field sensing. We propose a fiber-based setup in which the excitation intensity is modulated in a frequency range up to 100MHz. The change in magnitude and phase of the fluorescence relative to B=0 is recorded where the phase shows a maximum in magnetic contrast of 5.8∘ at 13MHz. A lock-in amplifier-based setup utilizing the change in phase at this frequency shows a 100 times higher immunity to fluctuations in the optical path compared to the intensity-based approach. A noise floor of 20μT/Hz and a shot-noise-limited sensitivity of 0.95μT/Hz were determined.

Topics & Concepts

Magnetic fieldMaterials scienceIntensity (physics)ExcitationOptical pathLock-in amplifierPhase (matter)Sensitivity (control systems)OpticsOptical amplifierExcited stateOptical fiberNoise (video)OptoelectronicsAmplifierPhysicsAtomic physicsLaserElectronic engineeringEngineeringQuantum mechanicsCMOSImage (mathematics)Artificial intelligenceComputer scienceDiamond and Carbon-based Materials ResearchAdvanced Fiber Laser TechnologiesQuantum optics and atomic interactions
Excited-State Lifetime of NV Centers for All-Optical Magnetic Field Sensing | Litcius