Zhiping Ju scite author profile

We proposed a method to effectively fabricate negatively charged nitrogen vacancy (NV − ) centers close to the diamond surface by applying femtosecond laser writing technique. With a thick layer of silicon (Si) nanoballs coated, diamond surface was irradiated by high-fluence femtosecond laser pulses. A large number of NV − centers were created around the laser ablation crater area without thermal annealing. The distribution of the NV − centers was expanded to about 50 μm away from the crater center. To demonstrate the function of Si nanoballs, we performed the exactly same laser illumination process on the bare region of the sample surface. In this case, only a few NV − centers were generated around ablation crater. At distance of 32 μm away from crater centers, the NV − density for the case with nanoballs was up to 15.5 times higher compared to the case without nanoballs. Furthermore, we also investigated the influence of laser fluence and pulse number on the NV − density for the case with Si-nanoball layer. Finally, the formation mechanism of NV − centers and the role of Si nanoballs were explained via Coulomb explosion model. The method is demonstrated to be a promising approach to efficiently and rapidly fabricate NV − centers close to the surface of the diamond, which are significant in quantum sensing. Furthermore, the results provide deep insights into complex light-matter interactions.

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Deciphering the photophysical properties of near-infrared quantum emitters in AlGaN films by transition dynamics

Xue

Yuan

et al. 2022

Nanoscale

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High-resolution two-photon fluorescence microscope imaging of nanodiamonds containing NV color centers

Ju¹,

He²,

Lin³

et al. 2022

Results in Physics

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Zhiping Ju

Bright near-surface silicon vacancy centers in diamond fabricated by femtosecond laser ablation

Preparations and applications of single color centers in diamond

Efficient generation of nitrogen vacancy centers by laser writing close to the diamond surface with a layer of silicon nanoballs

Deciphering the photophysical properties of near-infrared quantum emitters in AlGaN films by transition dynamics

High-resolution two-photon fluorescence microscope imaging of nanodiamonds containing NV color centers

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