Research on a Micro-Nano SiSiGeSi Double Heterojunction Electro-Optic Modulation Structure

Abstract EN

The electro-optic modulator is a very important device in silicon photonics, which is responsible for the conversion of optical signals and electrical signals.

For the electro-optic modulator, the carrier density of waveguide region is one of the key parameters.

The traditional method of increasing carrier density is to increase the external modulation voltage, but this way will increase the modulation loss and also is not conducive to photonics integration.

This paper presents a micro-nano Si/SiGe/Si double heterojunction electro-optic modulation structure.

Based on the band theory of single heterojunction, the barrier heights are quantitatively calculated, and the carrier concentrations of heterojunction barrier are analyzed.

The band and carrier injection characteristics of the double heterostructure structure are simulated, respectively, and the correctness of the theoretical analysis is demonstrated.

The micro-nano Si/SiGe/Si double heterojunction electro-optic modulation is designed and tested, and comparison of testing results between the micro-nano Si/SiGe/Si double heterojunction micro-ring electro-optic modulation and the micro-nano Silicon-On-Insulator (SOI) micro-ring electro-optic modulation, Free Spectrum Range, 3 dB Bandwidth, Q value, extinction ratio, and other parameters of the micro-nano Si/SiGe/Si double heterojunction micro-ring electro-optic modulation are better than others, and the modulation voltage and the modulation loss are lower.