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Machine-learning-assisted electron-spin readout of nitrogen-vacancy center in diamond

Peng Qian, Xue Lin, Feifei Zhou, Runchuan Ye, Yunlan Ji, Bing Chen, Guangjun Xie, Nanyang Xu

2021Applied Physics Letters28 citationsDOIOpen Access PDF

Abstract

Machine learning is a powerful tool in finding hidden data patterns for quantum information processing. Here, we introduce this method into the optical readout of electron-spin states in diamond via single-photon collection and demonstrate improved readout precision at room temperature. The traditional method of summing photon counts in a time gate loses all the timing information crudely. We find that changing the gate width can only optimize the contrast or the state variance, not both. In comparison, machine learning adaptively learns from time-resolved fluorescence data and offers the optimal data processing model that elaborately weights each time bin to maximize the extracted information. It is shown that our method can repair the processing result from imperfect data, reducing 7% in spin readout error while optimizing the contrast. Note that these improvements only involve recording photon time traces and consume no additional experimental time, and they are, thus, robust and free. Our machine learning method implies a wide range of applications in the precision measurement and optical detection of states.

Topics & Concepts

Computer scienceDiamondPhotonBinRange (aeronautics)Photon countingImperfectOptoelectronicsPhysicsElectronic engineeringState (computer science)Quantum dotSpin (aerodynamics)Logic gateAlgorithmElectronic circuitArtificial intelligenceExperimental dataData processingQuantumQuantum informationOpticsDeep learningOptical storageObservational errorIntegrated circuit3D optical data storageSignal processingOptical computingQuantum sensorReal-time computingComputer engineeringDiamond and Carbon-based Materials ResearchQuantum and electron transport phenomenaChemical and Physical Properties of Materials
Machine-learning-assisted electron-spin readout of nitrogen-vacancy center in diamond | Litcius