%0 Journal Article
%T Femtofarad optoelectronic integration demonstrating energy-saving signal conversion and nonlinear functions
%J -
%D 2019
%R https://doi.org/10.1038/s41566-019-0397-3
%X The introduction of photonic technologies into mature electronic circuits is in high demand to accelerate on-chip information networking and even computing. Great difficulty lies in the fact that the optoelectronic coupling at their interfaces requires a substantial charging energy determined by their capacitance. Optoelectronic devices have been too large to reduce the integrated capacitance down to the femtofarad scale. Here we use a photonic-crystal platform to demonstrate the first experimental proof of optoelectronic integration at only 2ˋfF. This allows us to realize a record-low attojoule-energy electro-optic modulator (an electrical-to-optical or E每O converter) and an amplifier-free photoreceiver (an optical-to-electrical, or O每E converter), which leads to ultralow-energy signal conversion. By integrating these O每E/E每O devices, we demonstrate femtofarad ＆O每E每O transistors＊ with optical signal gain that show various optical nonlinear functions, including as all-optical switches, wavelength converters and cascadable optical repeaters with a femtojoule-per-bit energy consumption. These femtofarad-scale O每E/E每O/O每E每O devices promise tightly coupled photonic每electronic integration for new fields of energy-saving information processing
%U https://www.nature.com/articles/s41566-019-0397-3