Title :
Wideband Subwavelength Deeply Etched Multilayer Silicon Mirrors for Tunable Optical Filters and SS-OCT Applications
Author :
Omran, Haitham ; Sabry, Yasser M. ; Sadek, Mohamed ; Hassan, Khaled ; Khalil, Diaa
Author_Institution :
Fac. of Eng., Ain Shams Univ., Cairo, Egypt
Abstract :
In this paper, we report subwavelength deeply etched 1000-nm-thick silicon layers using deep etching on an SOI substrate. The subwavelength silicon layers are used to construct wideband multilayer Bragg mirrors showing more than 220-nm 3-dB bandwidth. The mirror reflectivity and effect of silicon layers etching errors are estimated using optical measurements. The deeply etched mirrors are used to realize a 125-nm-tuning range Fabry-Perot tunable with a free spectral range of 130 nm enabled by the MEMS technology. The filter has input/output fibers inserted into micromachined grooves with in-plane axis aligned with the filter mirrors. The filter is utilized in a ring laser swept source configuration with a semiconductor optical amplifier. The swept source has 100-nm tuning range and 0.13-nm 3-dB linewidth.
Keywords :
Fabry-Perot resonators; elemental semiconductors; etching; micro-optics; mirrors; optical filters; optical multilayers; optical tomography; optical tuning; reflectivity; semiconductor optical amplifiers; silicon; Fabry-Perot tunable; MEMS; SOI substrate; SS-OCT applications; Si; deeply etched multilayer silicon mirrors; filter mirrors; in-plane axis; micromachined grooves; mirror reflectivity; optical measurements; ring laser swept source configuration; semiconductor optical amplifier; size 100 nm; swept source optical coherence tomography; tunable optical filters; wideband multilayer Bragg mirrors; wideband subwavelength multilayer silicon mirrors; Bandwidth; Etching; Mirrors; Optical fiber filters; Reflection; Silicon; Bragg mirror; DRIE; Deep etching; Fabry-Perot filter; Fabry???Perot filter; MOEMS; SS-OCT; Sub-wavelength; deep etching;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2014.2369519
