Diamond-on-chip infrared absorption magnetic field camera

• URL: http://arxiv.org/abs/2401.00854v1
• Date: Mon, 4 Dec 2023 14:09:08 GMT
• Title: Diamond-on-chip infrared absorption magnetic field camera
• Authors: Julian M. Bopp, Hauke Conradi, Felipe Perona, Anil Palaci, Jonas Wollenberg, Thomas Flisgen, Armin Liero, Heike Christopher, Norbert Keil, Wolfgang Knolle, Andrea Knigge, Wolfgang Heinrich, Moritz Kleinert, Tim Schr\"oder
• Abstract summary: Nitrogen-vacancy centers in diamond represent the leading platform for such sensing tasks under ambient conditions. Current research on uniting a good sensitivity and a high spatial resolution is facilitated by scanning or imaging techniques. We introduce novel concepts for spatially resolved magnetic field sensing and 2-D gradiometry with an integrated magnetic field camera.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Integrated and fiber-packaged magnetic field sensors with a sensitivity sufficient to sense electric pulses propagating along nerves in life science applications and with a spatial resolution fine enough to resolve their propagation directions will trigger a tremendous step ahead not only in medical diagnostics, but in understanding neural processes. Nitrogen-vacancy centers in diamond represent the leading platform for such sensing tasks under ambient conditions. Current research on uniting a good sensitivity and a high spatial resolution is facilitated by scanning or imaging techniques. However, these techniques employ moving parts or bulky microscope setups. Despite being far developed, both approaches cannot be integrated and fiber-packaged to build a robust, adjustment-free hand-held device. In this work, we introduce novel concepts for spatially resolved magnetic field sensing and 2-D gradiometry with an integrated magnetic field camera. The camera is based on infrared absorption optically detected magnetic resonance (IRA-ODMR) mediated by perpendicularly intersecting infrared and pump laser beams forming a pixel matrix. We demonstrate our 3-by-3 pixel sensor's capability to reconstruct the position of an electromagnet in space. Furthermore, we identify routes to enhance the magnetic field camera's sensitivity and spatial resolution as required for complex sensing applications.

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