Add to BibSonomy
Abstract
We propose and experimentally demonstrate a vertical fiber interfacing interleaved angled multimode interference (MMI) coupler for wavelength-division multiplexing (WDM) applications. This four-channel WDM device comprises two ${1} \times {2}$ angled MMI couplers and a bidirectional grating-based Mach–Zehnder interferometer (MZI) structure. In the MZI optical interleaver, the uniform bidirectional grating functions as both the perfectly vertical grating coupler and the 3 dB power splitter. Benefitting from the flat-top coupling spectrum of the grating coupler, a high-uniformity wavelength-division (de)multiplexing can be achieved with a simulated insertion loss of 3.15–3.36 dB (the nonuniformity of 0.22 dB). The angled MMIs (AMMIs) are designed and optimized using the eigenmode expansion method. For wavelength matching between the MZI and AMMIs, the circuit simulation model of the interleaved AMMI is built by importing the S-parameter matrices of all the optical components extracted from the physical level simulations. The device was fabricated using standard CMOS technology and all the features were patterned with the 193-nm deep-UV lithography. Experimental results obtained without thermal tuning are in good agreement with the simulation results. The device exhibits an insertion loss of 4.5–4.65 dB (nonuniformity of 0.15 dB), channel spacing of 10 nm, and cross talk of ${-}({21.62 - 26})\;{\rm dB}$.
© 2021 Optical Society of America
Full Article | PDF ArticleMore Like This
Thalía Domínguez Bucio, Ali Z. Khokhar, Goran Z. Mashanovich, and Frederic Y. Gardes
Opt. Express 25(22) 27310-27320 (2017)
Manoranjan Minz and Ramesh Kumar Sonkar
Appl. Opt. 60(9) 2640-2646 (2021)
Guoyan Zeng, Yuexin Yin, Yingzhi Ding, Junfeng Yang, Jun Yan, Xiaoqiang Sun, and Daming Zhang
Opt. Express 31(13) 21161-21171 (2023)