Highly Sensitive Compact Room Temperature Quantum Scalar Magnetormeter
- Magnetometry with nitrogen–vacancy (NV) defects in diamond has been extensively stud-ied in the past [1]. While most approaches in-clude the use of microwaves (MW) for the de-tection of electron spin resonance, only few investigate the sensitivity of the photolumines-cence (PL) from NV centers to an external magnetic field without MW [2, 3, 4]. This work aims to utilize this effect to build a highly sensi-tive and compact room temperature magne-tometer. The avoidance of MW serves the re-duction of production costs and allows a com-mercialization at the current patent situation.
| Author: | Ludwig Horsthemke, Robert Staake, Bernd Burchard, Jan Meijer, Christian Bischoff, Peter Glösekötter |
|---|---|
| DOI: | https://doi.org/10.5162/SMSI2020/A1.4 |
| Parent Title (German): | SMSI 2020 |
| Document Type: | Article in Conference Proceedings |
| Language: | German |
| Date of Publication (online): | 2020/06/23 |
| Year of first Publication: | 2020 |
| Publishing Institution: | FH Münster - University of Applied Sciences |
| Release Date: | 2020/06/23 |
| Tag: | Highly Sensitive |
| First Page: | 47 |
| Last Page: | 48 |
| Institutes: | Elektrotechnik und Informatik (ETI) |
| Publication list: | Glösekötter, Peter |
| Licence (German): |  Bibliographische Daten |
