Add to ORKGWe propose a chip-based optical buffer that is continuously tunable by microelectromechanical actuation. The device consists of two identical semiconductor waveguides with a mechanically variable gap in-between, allowing for a change of group delay of over 100% and for extremely broadband operation
We present the design and fabrication of suspended optical waveguides on indium phosphide (InP) plat...
In this thesis, we model and experimentally demonstrate a number of silicon microring resonator-base...
Abstract- We demonstrate electro-optic tuning of coupled resonator induced transparency on a silicon...
We present design and fabrication of free-standing InP optical waveguides for MEMS-actuated optical ...
We propose a design for an optical buffer that comprises two coupled silicon waveguides, which is ca...
We are developing a MEMS-based device that can produce continuously tunable delays of optical signal...
We present the design and fabrication of a tunable optical buffer device based on III-V semiconducto...
We present our work towards development of an optical buffer based on the InP platform that consists...
We present the design and fabrication of a dual air-bridge waveguide structure integrated with MEMS ...
We acknowledge funding from the European Research Council (ERC) under the European Union’s Seventh F...
Tunable on-chip optical delay has long been a key target for the research community, as it is the en...
Creation of miniature optical delay lines and buffers is one of the greatest challenges of the moder...
A wavelength tunable optical buffer with the ability to achieve data recovery based on self-pulsatio...
AbstractWe present design and FDTD simulations of microring resonator array optical buffer. The prop...
In this thesis, we propose and demonstrate microresonator-based electro-optical tunable switches and...
We present the design and fabrication of suspended optical waveguides on indium phosphide (InP) plat...
In this thesis, we model and experimentally demonstrate a number of silicon microring resonator-base...
Abstract- We demonstrate electro-optic tuning of coupled resonator induced transparency on a silicon...
We present design and fabrication of free-standing InP optical waveguides for MEMS-actuated optical ...
We propose a design for an optical buffer that comprises two coupled silicon waveguides, which is ca...
We are developing a MEMS-based device that can produce continuously tunable delays of optical signal...
We present the design and fabrication of a tunable optical buffer device based on III-V semiconducto...
We present our work towards development of an optical buffer based on the InP platform that consists...
We present the design and fabrication of a dual air-bridge waveguide structure integrated with MEMS ...
We acknowledge funding from the European Research Council (ERC) under the European Union’s Seventh F...
Tunable on-chip optical delay has long been a key target for the research community, as it is the en...
Creation of miniature optical delay lines and buffers is one of the greatest challenges of the moder...
A wavelength tunable optical buffer with the ability to achieve data recovery based on self-pulsatio...
AbstractWe present design and FDTD simulations of microring resonator array optical buffer. The prop...
In this thesis, we propose and demonstrate microresonator-based electro-optical tunable switches and...
We present the design and fabrication of suspended optical waveguides on indium phosphide (InP) plat...
In this thesis, we model and experimentally demonstrate a number of silicon microring resonator-base...
Abstract- We demonstrate electro-optic tuning of coupled resonator induced transparency on a silicon...