Magnetic field orientation dependence of continuous-wave optically detected magnetic resonance with nitrogen-vacancy ensembles

• URL: http://arxiv.org/abs/2504.18478v1
• Date: Fri, 25 Apr 2025 16:36:27 GMT
• Title: Magnetic field orientation dependence of continuous-wave optically detected magnetic resonance with nitrogen-vacancy ensembles
• Authors: Pralekh Dubey, Shashank Kumar, Chinmaya Singh, Jemish Naliyapara, Monish A Poojar, Harikrishnan K B, Anshul Poonia, Phani Peddibhotla,
• Abstract summary: Continuous-wave optically detected magnetic resonance (CW-ODMR) measurements with nitrogen-vacancy (NV) spins in diamond are used for sensing DC magnetic fields from nearby targets.<n>This technique suffers from ambiguities in the extraction of the magnetic field components when resonances due to different NV orientation classes overlap with each other.<n>Here, we perform detailed experimental and theoretical studies of such effects on NV ensembles experiencing low bias magnetic fields.
• Score: 0.5018974919510384
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Continuous-wave optically detected magnetic resonance (CW-ODMR) measurements with nitrogen-vacancy (NV) spins in diamond are used for sensing DC magnetic fields from nearby magnetic targets. However, this technique suffers from ambiguities in the extraction of the magnetic field components when resonances due to different NV orientation classes overlap with each other. Here, we perform detailed experimental and theoretical studies of such effects on NV ensembles experiencing low bias magnetic fields. In particular, through symmetry considerations, we systematically examine the ODMR response of different NV orientation classes as a function of the orientation of the magnetic field vector. Our studies are of importance for performing a careful and detailed analysis of the ODMR spectra in order to infer the vector magnetic field information. Our results find application in the studies of magnetic samples that require a low applied bias field and also can be potentially adapted to defect spins in other solid-state systems.

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