Litcius/Paper detail

Photo‐Induced Charge State Dynamics of the Neutral and Negatively Charged Silicon Vacancy Centers in Room‐Temperature Diamond

G. Garcia‐Arellano, Gabriel I. López‐Morales, Neil B. Manson, Johannes Flick, A. A. Wood, Carlos A. Meriles

2024Advanced Science11 citationsDOIOpen Access PDF

Abstract

Abstract The silicon vacancy (SiV) center in diamond is drawing much attention due to its optical and spin properties, attractive for quantum information processing and sensing. Comparatively little is known, however, about the dynamics governing SiV charge state interconversion mainly due to challenges associated with generating, stabilizing, and characterizing all possible charge states, particularly at room temperature. Here, multi‐color confocal microscopy and density functional theory are used to examine photo‐induced SiV recombination — from neutral, to single‐, to double‐negatively charged — over a broad spectral window in chemical‐vapor‐deposition (CVD) diamond under ambient conditions. For the SiV 0 to SiV ‐ transition, a linear growth of the photo‐recombination rate with laser power at all observed wavelengths is found, a hallmark of single photon dynamics. Laser excitation of SiV ‒ , on the other hand, yields only fractional recombination into SiV 2‒ , a finding that is interpreted in terms of a photo‐activated electron tunneling process from proximal nitrogen atoms.

Topics & Concepts

DiamondVacancy defectMaterials scienceSiliconQuantum tunnellingRecombinationChemical physicsAtomic physicsMolecular physicsAtom (system on chip)Charge (physics)PhotonOptoelectronicsChemistryCrystallographyPhysicsOpticsComposite materialEmbedded systemQuantum mechanicsGeneComputer scienceBiochemistryDiamond and Carbon-based Materials ResearchElectronic and Structural Properties of OxidesHigh-pressure geophysics and materials