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Ultra-compact and ultra-broadband arbitrary-order silicon photonic multi-mode converter designed by an intelligent algorithm

Toughui Dou, Song Yue, Ran Wang, Yu Hou, Haiyan Shi, Zhe Zhang, Yuxin Liu, Xue Mei, Zichen Zhang

2023Optics Express22 citationsDOIOpen Access PDF

Abstract

Multi-mode converters, which can achieve spatial mode conversion in multimode waveguide, play a key role in multi-mode photonics and mode-division multiplexing (MDM). However, rapid design of high-performance mode converters with ultra-compact footprint and ultra-broadband operation bandwidth is still a challenge. In this work, through combining adaptive genetic algorithm (AGA) and finite element simulations, we present an intelligent inverse design algorithm and successfully designed a set of arbitrary-order mode converters with low excess losses (ELs) and low crosstalk (CT). At the communication wavelength of 1550 nm, the footprint of designed TE 0–n (n = 1, 2, 3, 4) and TE 2–n (n = 0, 1, 3, 4) mode converters are only 1.8 × 2.2 µm 2 . The maximum and minimum conversion efficiency (CE) is 94.5% and 64.2%, and the maximum and minimum ELs/CT are 1.92/-10.9 dB and 0.24/-20 dB, respectively. Theoretically, the smallest bandwidth for simultaneously achieving ELs ≤ 3 dB and CT ≤ -10 dB exceeds 70 nm, which can be as large as 400 nm for the case of low-order mode conversion. Moreover, the mode converter in conjunction with a waveguide bend allows for mode-conversion in ultra-sharp waveguide bends, significantly increasing the density of on-chip photonic integration. This work provides a general platform for the realization of mode converters and has good prospect in application of multimode silicon photonics and MDM.

Topics & Concepts

ConvertersBroadbandPhotonicsMulti-mode optical fiberBandwidth (computing)MultiplexingOpticsSilicon photonicsMode scramblerWaveguideElectronic engineeringComputer scienceRadiation modePhysicsSingle-mode optical fiberOptoelectronicsTelecommunicationsOptical fiberEngineeringPower (physics)Quantum mechanicsPhotonic and Optical DevicesOptical Network TechnologiesAdvanced Fiber Laser Technologies
Ultra-compact and ultra-broadband arbitrary-order silicon photonic multi-mode converter designed by an intelligent algorithm | Litcius