Low-loss MEMS phase shifter for large scale reconfigurable silicon photonics

We experimentally demonstrate a silicon MEMS phase shifter achieving more than π phase shift with sub-dB insertion loss (IL). The phase is tuned by reducing the gap between a static suspended waveguide and a free silicon beam, via comb-drive actuation. Our device reaches 1.2π phase shift at only 20 V, with only 0.3 dB insertion loss – an order of magnitude improvement over previously reported MEMS devices. The device has a small footprint of 50×70 µm2 and its power consumption is 5 orders of magnitude lower than that of traditional thermal phase shifters. Our new phase shifter is a fundamental building block of the next-generation large scale reconfigurable photonic circuits which will find applications in datacenter interconnects, artificial intelligence (AI), and quantum computing.QC 20200717Morphi