Programmable photonic integrated circuits are emerging as an attractive platform for applications such as quantum information processing and artificial neural networks. However, current programmable circuits are limited in scalability by the lack of low-power and low-loss phase shifters in commercial foundries. Here, we demonstrate a compact phase shifter with low-power photonic microelectromechanical system (MEMS) actuation on a silicon photonics foundry platform (IMEC's iSiPP50G). The device attains (2.9 pi +/- pi) phase shift at 1550 nm, with an insertion loss of (0.33(-0.10)(+0.15)) dB, a V-pi of (10.7(-1.4)(+2.2)) V, and an L-pi of (17.2(-4.3)(+8.8)) mu m. We also measured an actuation bandwidth f(-3 dB) of 1.03 MHz in air. We believe ...
With the maturing and the increasing complexity of Silicon Photonics technology, novel avenues are p...
Abstract Programmable photonic integrated circuits (PICs) are emerging as powerful tools for control...
In the European project MORPHIC we develop a platform for programmable silicon photonic circuits ena...
Programmable photonic integrated circuits are emerging as an attractive platform for applications su...
We experimentally demonstrate a silicon MEMS phase shifter achieving more than π phase shift with su...
MEMS offer low power tunability to silicon photonics. However, reported phase shifters lack in range...
We review our recent work on compact and low power silicon photonic components based on microelectro...
Programmable photonic circuits electronically reconfigure the flow of light on a chip. This requires...
We present our work to extend silicon photonics with MEMS actuators to enable low-power, large scale...
Like integrated electronics, integrated photonics such as Silicon Photonics benefit from increased d...
We report on a 4-bit digital silicon photonic MEMS phase-shifter with sub-microsecond switching time...
Photonic integrated circuits (PICs) combine hundreds of optical components on a chip, and can enable...
Low-power and compact phase shifters are crucial for large photonic circuits, both to cope with vari...
We present a vertically movable silicon photonic MEMS switch realized in IMEC's standard silicon pho...
We report a low-voltage optical phase shifter using liquid crystal actuation integrated in IMEC's iS...
With the maturing and the increasing complexity of Silicon Photonics technology, novel avenues are p...
Abstract Programmable photonic integrated circuits (PICs) are emerging as powerful tools for control...
In the European project MORPHIC we develop a platform for programmable silicon photonic circuits ena...
Programmable photonic integrated circuits are emerging as an attractive platform for applications su...
We experimentally demonstrate a silicon MEMS phase shifter achieving more than π phase shift with su...
MEMS offer low power tunability to silicon photonics. However, reported phase shifters lack in range...
We review our recent work on compact and low power silicon photonic components based on microelectro...
Programmable photonic circuits electronically reconfigure the flow of light on a chip. This requires...
We present our work to extend silicon photonics with MEMS actuators to enable low-power, large scale...
Like integrated electronics, integrated photonics such as Silicon Photonics benefit from increased d...
We report on a 4-bit digital silicon photonic MEMS phase-shifter with sub-microsecond switching time...
Photonic integrated circuits (PICs) combine hundreds of optical components on a chip, and can enable...
Low-power and compact phase shifters are crucial for large photonic circuits, both to cope with vari...
We present a vertically movable silicon photonic MEMS switch realized in IMEC's standard silicon pho...
We report a low-voltage optical phase shifter using liquid crystal actuation integrated in IMEC's iS...
With the maturing and the increasing complexity of Silicon Photonics technology, novel avenues are p...
Abstract Programmable photonic integrated circuits (PICs) are emerging as powerful tools for control...
In the European project MORPHIC we develop a platform for programmable silicon photonic circuits ena...