Abstract
Detecting and classifying particles over a wide range of types and sizes is essential for precise air quality determination.
In this study the use of optical waveguide-based particle detection is examined using finite element method (FEM) based
simulations. The simulation model assumes a silicon nitride strip waveguide and is built up in 3D using the Comsol
Multiphysics® platform. The waveguide geometry parameters were varied to identify suitable geometries for single-mode
wave guidance of the fundamental quasi-TE and quasi-TM modes. The geometries with their according effective wave
indices are reported. Furthermore, the intensity and phase changes of the single-mode wave introduced by the presence of
a particle are analyzed und the underlying physical effects are discussed for spherical particles of radii from 50 to 500 nm.
The results show non-linear and non-monotonic behavior and give substantial input to understand basic particle interaction
with waveguide structures. Furthermore, they provide helpful knowledge for designing waveguide-based particle detectors.
In this study the use of optical waveguide-based particle detection is examined using finite element method (FEM) based
simulations. The simulation model assumes a silicon nitride strip waveguide and is built up in 3D using the Comsol
Multiphysics® platform. The waveguide geometry parameters were varied to identify suitable geometries for single-mode
wave guidance of the fundamental quasi-TE and quasi-TM modes. The geometries with their according effective wave
indices are reported. Furthermore, the intensity and phase changes of the single-mode wave introduced by the presence of
a particle are analyzed und the underlying physical effects are discussed for spherical particles of radii from 50 to 500 nm.
The results show non-linear and non-monotonic behavior and give substantial input to understand basic particle interaction
with waveguide structures. Furthermore, they provide helpful knowledge for designing waveguide-based particle detectors.
| Originalsprache | Englisch |
|---|---|
| Titel | Proceedings Volume 11207, Fourth International Conference on Applications of Optics and Photonics; |
| DOIs | |
| Publikationsstatus | Veröffentlicht - Okt. 2019 |