Optimal design and experimental demonstration of a silicon-based ultra-compact mode splitter

Abstract: To improve the flexibility of the mode division multiplexing (MDM) system, we propose and experimentally demonstrate a mode splitter by using the inverse design method. The proposed mode splitter has an ultra-compact footprint of 5 × 3 µm2, and the functional region occupies a footprint of only 5 × 1 µm2. The optimized mode splitter can separate the TE0 and TE1 modes without changing the mode order. When transmitting the TE0 mode, the measured insertion loss and crosstalk are 2.14 dB and −13.34 dB, respectivel… Show more

“…In Ref. [17], a mode splitter was designed by using the direct binary search (DBS) algorithm. The optimized device has an ultracompact size but exhibits a high IL of 3.04 dB, which is unsuitable for practical applications.…”

Inverse design of highly efficient and broadband mode splitter on SOI platform

“…In Ref. [17], a mode splitter was designed by using the direct binary search (DBS) algorithm. The optimized device has an ultracompact size but exhibits a high IL of 3.04 dB, which is unsuitable for practical applications.…”

Inverse design of highly efficient and broadband mode splitter on SOI platform

Deep Neural Network for Performance Prediction of Silicon Mode Splitter

Ultra-compact power splitting higher-order mode pass filter based on inverse design method