A physics-informed DIP method using a simple convolutional autoencoder reconstructs complex in-plane magnetization from NV magnetometry, with optimal mask orientation improving SNR by up to 3 dB.
Rondin , author J.-P
2 Pith papers cite this work. Polarity classification is still indexing.
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Wide-field NV imaging captured real-time rearrangement of vortices in an NbN film driven by shielding currents under local laser heating.
citing papers explorer
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Physics-Informed Deep Image Prior Reconstruction of In-Plane Magnetization from Scanning NV Magnetometry
A physics-informed DIP method using a simple convolutional autoencoder reconstructs complex in-plane magnetization from NV magnetometry, with optimal mask orientation improving SNR by up to 3 dB.
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Wide-field magnetic imaging of shielding-current-driven vortex rearrangement under local heating using diamond quantum sensors
Wide-field NV imaging captured real-time rearrangement of vortices in an NbN film driven by shielding currents under local laser heating.