Enhancing quantum sensing performance by optimizing the concentration and dephasing time of the NV ensemble in CVD-diamond
At a Glance
Section titled āAt a Glanceā| Metadata | Details |
|---|---|
| Publication Date | 2022-12-15 |
| Journal | Optical Materials Express |
| Authors | Sixian Wang, Guodong Bian, Pengcheng Fan, Mingxin Li, Bo Li |
| Institutions | East China Normal University |
| Citations | 4 |
Abstract
Section titled āAbstractāThe negatively charged nitrogenāvacancy (NV ā ) center ensembles in diamonds offer enormous potential for developing integrated sensors with an improved signal-to-noise ratio (SNR) and high sensitivity. However, the preparation and treatment of diamond samples with suitable NV ā concentrations and dephasing time have remained challenging. This work provided insight into the NV ā center formation mechanism and reconstruction via a comprehensive analysis of the concentration and dephasing time of a set of diamond samples treated by various parameters. By varying the electron irradiation dose and subsequent annealing duration, the conversion rate of nitrogen to NV ā is up to 18.45%, and the corresponding maximum NV ā concentration is 3.69 ppm. The dephasing time for all samples varies around 300 ns. The nitrogen-related NV ā center ensemble dephasing rate per unit density is 146.4 (ppmĀ·ms) ā1 , indicating that the treatment did not substantially alter the paramagnetic spin environment around the NV ā center. This study not only offers support to exquisite sensitivities of NV-based sensors but also provides valuable experience for the preparation of unique properties of synthetic diamonds.