Abstract
Research related to semiconductor devices often relies on wafer fabrication. The fabrication of Silicon (Si) based devices by anisotropic wet etching can be affected by many etching parameters such as etching temperature, crystal orientation and percent of composition. Most of the anisotropic wet etchings by KOH solution done before were conducted at temperature over 70°C. We found that the temperatures are not suitable to fabricate ring waveguide as the waveguide wall will collapse at such high temperature. This study reports the etching characteristics of Si in KOH solution with 35% concentration at the temperature below 70°C. The etched wafer is targeted to be the basic structure for Microring Resonators (MRRs) based devices. This technique provides not only lower cost as compared to other etching technique, but also simple preparation. We found that low temperature manage to mold a good ring waveguide with low tendency to form rectangular structure due to crystal orientation. At 40°C, the best waveguide formation was obtained with a smooth waveguide surface, experiencing an etching rate of 0.066 µ min-1 and an appreciable ring waveguide structure. The effect of the low temperature on the fabrication of the MRRs devices has been investigated and studied.
Highlights
Microring Resonators (MRRs) are of great interest for integrated optoelectronic applications due to a number of reasons; compact size, simple design and high wavelength selectivity
The etched wafer is targeted to be the basic structure for Microring Resonators (MRRs) based devices
We found that low temperature manage to mold a good ring waveguide with low tendency to form rectangular structure due to crystal orientation
Summary
Microring Resonators (MRRs) are of great interest for integrated optoelectronic applications due to a number of reasons; compact size, simple design and high wavelength selectivity. Among the devices that can be designed using the MRRs is filters, modulators and delay line (Hazura et al, 2010; Shaari et al, 2010). Most of these devices can be realized by optical waveguides where it forms the basic structure for device construction. This configuration is commonly used in MRRs filter. The rib waveguide width for the circular waveguide, WR and the straight waveguide, WS designed in this study are 4μm and the gap distance between the straight and circular waveguides is 1 μm
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