Issue 6, 2023

Light emission dynamics of silicon vacancy centers in a polycrystalline diamond thin film

Abstract

Diamond thin films can be, at a relatively low-cost, prepared with a high-density of light-emitting negatively charged silicon vacancy (SiV) centers, which opens up the possibility of their application in photonics or sensing. The films are composed of diamond grains with both the SiV centers and sp2-carbon phase, the ratio of these two components being dependent on the preparation conditions. The grain surface and the sp2-related defects might act as traps for the carriers excited within the SiV centers, consequently decreasing their internal photoluminescence (PL) quantum efficiency. Here, we show that in a 300 nm thick polycrystalline diamond film on a quartz substrate, the SiV centers in the diamond grains possess similar temperature-dependent (13–300 K) PL decay dynamics as the SiV centers in monocrystalline diamond, which suggests that most of the SiV centers are not directly interconnected with the defects of the diamond thin films, i.e. that the carriers excited within the centers do not leak into the defects of the film. The activation energy ΔE = 54 meV and the attempt frequency α = 2.6 were extracted from the measured data. These values corresponded very well with the published values for SiV centers in monocrystalline diamond. We support this claim by measuring the transient absorption via a pump and probe technique, where we separated the nanosecond recombination dynamics of carriers in SiV centers from the picosecond decay dynamics of polycrystalline diamond defects. Our results show that PL emission properties of SiV centers in polycrystalline diamond thin films prepared via chemical vapor deposition are very similar to those in monocrystalline diamond thereby opening the door for their application in diamond photonics and sensing.

Graphical abstract: Light emission dynamics of silicon vacancy centers in a polycrystalline diamond thin film

Article information

Article type
Paper
Submitted
02 Okt. 2022
Accepted
30 Dec. 2022
First published
19 Janv. 2023

Nanoscale, 2023,15, 2734-2738

Light emission dynamics of silicon vacancy centers in a polycrystalline diamond thin film

F. Trojánek, K. Hamráček, M. Hanák, M. Varga, A. Kromka, O. Babčenko, L. Ondič and P. Malý, Nanoscale, 2023, 15, 2734 DOI: 10.1039/D2NR05470A

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