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- Title
Modeling of Radiative Emission from Shallow Color Centers in Single Crystalline Diamond.
- Authors
Zahedian, Maryam; Jietian Liu; Vidrio, Ricardo; Kolkowitz, Shimon; Choy, Jennifer T.
- Abstract
Optically active defects in diamond are widely used as bright single-photon sources for quantum sensing, computing, and communication. For many applications, it is useful to place the emitter close to the diamond surface, where the radiative properties of the emitter are strongly modified by its dielectric environment. It is well-known that the radiative power from an electric dipole decreases as the emitter approaches an interface with a lower-index dielectric, leading to an increase in the radiative lifetime. For emitters in crystalline solids, modeling of this effect needs to take into account the crystal orientation and direction of the surface cut, which can greatly impact the emission characteristics. In this paper, a framework for analyzing the emission rates of shallow (< 100 nm) defects is provided, in which optical transitions are derived from electric dipoles in a plane perpendicular to their spin axis. The calculations for the depth-dependent radiative lifetime for color centers in (100)-, (110)-, and (111)-cut diamond are presented, which can be extended to other vacancy defects in diamond.
- Subjects
DIAMOND surfaces; CRYSTALS; DIAMONDS; CRYSTAL orientation; COLOR
- Publication
Laser & Photonics Reviews, 2023, Vol 17, Issue 4, p1
- ISSN
1863-8880
- Publication type
Article
- DOI
10.1002/lpor.202200529