Geints, Y.E. Design of Photonic Molecule-Based Multiway Beam Splitter/Coupler with Variable Division Ratio. Photonics 2024, 11, 600, doi:10.3390/photonics11070600.
Geints, Y.E. Design of Photonic Molecule-Based Multiway Beam Splitter/Coupler with Variable Division Ratio. Photonics 2024, 11, 600, doi:10.3390/photonics11070600.
Geints, Y.E. Design of Photonic Molecule-Based Multiway Beam Splitter/Coupler with Variable Division Ratio. Photonics 2024, 11, 600, doi:10.3390/photonics11070600.
Geints, Y.E. Design of Photonic Molecule-Based Multiway Beam Splitter/Coupler with Variable Division Ratio. Photonics 2024, 11, 600, doi:10.3390/photonics11070600.
Abstract
Optical beam splitter is used for dividing an input optical beam into several separate beams with specific power ratio. Usually, conventional beam splitters have bulky dimensions and fixed dividing ratio which significantly limit the design of new miniaturized optical devices and integrated optical circuits. We propose and investigate a novel physical concept of a miniaturized planar optical splitter/coupler with a switching element in the form of a photonic molecule (PM) pair dispersing input optical fluxes along multiple ways with variable power proportions. The structural design of the proposed splitter is based on a silicon-on-insulator (SOI) platform and composed of high-quality resonators in the form of electromagnetically coupled submicron-sized microcylinders. The control on the power division ratio and the selection of optical beam directions is realized by tuning the photonic splitter structure to the corresponding resonance of PM supermode. Compared to known analogues, the proposed design is easy to fabricate, suitable for integration into a "System-on-a-chip" platform and can dynamically change the beam power division ratio by input wave-phase manipulation.
Copyright:
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