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Magnetometry based on the excited-state lifetimes of a single nitrogen-vacancy center in diamond

Felix M. Stürner, Yan Liu, Pierre-Olivier Colard, Matthew Markham, Fedor Jelezko

2021Applied Physics Letters24 citationsDOI

Abstract

So far most well-established quantum sensing techniques based on the negatively charged nitrogen-vacancy (NV) center in diamond utilize the recorded fluorescence intensity to detect the electronic spin states. However, the fluorescence intensity of a NV center is not only dependent on its spin state, but also affected by measurement issues, such as fluctuations of the excitation laser power and charge state transformation of the NV center. Instabilities in terms of output power or polarization changes in the laser source as well as sample drifts during a measurement are common factors that weaken the precision. Here, we demonstrate proof-of-principle of a sensing method making use of the excited-state lifetimes of a NV center for magnetometry experiments.

Topics & Concepts

DiamondNitrogen-vacancy centerExcited stateMagnetometerAtomic physicsVacancy defectExcitationLaserPolarization (electrochemistry)Quantum sensorMaterials sciencePhysicsQuantumChemistryCondensed matter physicsMagnetic fieldOpticsQuantum technologyComposite materialQuantum mechanicsPhysical chemistryOpen quantum systemDiamond and Carbon-based Materials ResearchHigh-pressure geophysics and materialsElectronic and Structural Properties of Oxides
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