Abstract
This paper designs a 1 × 2 switchable dual-mode optical 90° hybrid device on the silicon-on-insulator (SOI) platform for the mode division multiplexing hybridized coherent transmission systems in optical communication. Our proposed hybrid uses various 2 × 2 multimode interference (MMI) couplers, symmetric Y-junctions, and thermo-optic phase shifters. The suggested hybrid device working principle is proved on theoretical analysis about the multimode interference and the transfer matrix relation. The optimization of geometrical parameters and metallic micro-heaters is executed through the numerical simulation method. The proposed hybrid coupler expresses lots of optical performance advantages, with an insertion loss lower than 2.5 dB, a common-mode rejection ratio (CMRR) better than −24 dB, and phase error smaller than 4° in the 50-nm wavelength bandwidth of the third telecom window for both two TE modes. Besides, the device is proven large geometrical tolerances in terms of width and height tolerances larger than ±50 nm and ±6 nm in the 1.5-dB variation limit of transmission, respectively. In addition, the proposed device attains relatively low power consumption under 75 mW and an ultrafast switching time below 10 μs. Such advantages of good performances make the device a promising potential for broadband and intra-chip MDM-hybridized coherent optical communication systems and photonic integrated circuits.
Highlights
Today, one of the leading solutions widely applied in optical transmission systems is the coherent transmission technique
Coherent transmission systems are often incorporative into some advanced modulation techniques such as quadrature amplitude modulation (QAM) [1]–[3] and quadrature phase-shift keying (QPSK) modulation for carrying high bitrate in optical transmission
This paper proposes a 1 × 2 switchable dual-mode optical 90° hybrid device based on the SOI platform enabling the MDM-hybridized coherent transmission system
Summary
One of the leading solutions widely applied in optical transmission systems is the coherent transmission technique. Coherent transmission systems are often incorporative into some advanced modulation techniques such as quadrature amplitude modulation (QAM) [1]–[3] and quadrature phase-shift keying (QPSK) modulation for carrying high bitrate in optical transmission. MMI coupler-based hybrids are preferred to recognize an on-chip integrated photonic device thanks to flexible configurations and significant fabrication tolerances [21], [22]. To date, the mode division multiplexing technique is an up-and-coming solution to increase optical channel capacity, especially in MDM-hybridized WDM systems [33], [34]. This paper proposes a 1 × 2 switchable dual-mode optical 90° hybrid device based on the SOI platform enabling the MDM-hybridized coherent transmission system. The switching states can be controlled under the impact of the thermo-optic effect via the utilization of metallic heaters
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