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Gregor, Markus

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  • Glösekötter, Peter (1)
  • Gregor, Markus (1)
  • Homrighausen, Jonas (1)
  • Horsthemke, Ludwig (1)
  • Pogorzelski, Jens (1)
  • Trinschek, Sarah (1)

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  • 2023 (1)

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Edge-Machine-Learning-Assisted Robust Magnetometer Based on Randomly Oriented NV-Ensembles in Diamond (2023)
Homrighausen, Jonas ; Horsthemke, Ludwig ; Pogorzelski, Jens ; Trinschek, Sarah ; Glösekötter, Peter ; Gregor, Markus
Quantum magnetometry based on optically detected magnetic resonance (ODMR) of nitrogen vacancy centers in nano- or micro-diamonds is a promising technology for precise magnetic-field sensors. Here, we propose a new, low-cost and stand-alone sensor setup that employs machine learning on an embedded device, so-called edge machine learning. We train an artificial neural network with data acquired from a continuous-wave ODMR setup and subsequently use this pre-trained network on the sensor device to deduce the magnitude of the magnetic field from recorded ODMR spectra. In our proposed sensor setup, a low-cost and low-power ESP32 microcontroller development board is employed to control data recording and perform inference of the network. In a proof-of-concept study, we show that the setup is capable of measuring magnetic fields with high precision and has the potential to enable robust and accessible sensor applications with a wide measuring range.
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