Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100203
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Ultrafast optoelectronic characterisation for optical and wireless systems. Ultra-fast optoelectronic characterisation for optical and wireless systems:
The project aims to establish an ultra-fast optoelectronic characterisation facility to measure a wide range of electronic and photonic signals, providing versatile tools for conducting research on ultra-high-speed optical communications, microwave photonics, and millimetre wave systems. There is an increasing need for parallel signalling using ....Ultrafast optoelectronic characterisation for optical and wireless systems. Ultra-fast optoelectronic characterisation for optical and wireless systems:
The project aims to establish an ultra-fast optoelectronic characterisation facility to measure a wide range of electronic and photonic signals, providing versatile tools for conducting research on ultra-high-speed optical communications, microwave photonics, and millimetre wave systems. There is an increasing need for parallel signalling using spatial, temporal and spectral degrees of freedom in both radio-frequency and optical communications. The facility expects to leverage the recent rapid advances in powerful silicon digital signal processors with unprecedented capabilities in bandwidth and accuracy and focus on detecting massively parallel signals. The project aims to support a wide range of research activities from sustaining the phenomenal Internet growth in telecommunications to strengthening Australia’s defence systems.Read moreRead less
Breaking the glass ceiling: silicon-nitride (SiN) and doped silica glass for ultra high speed Complementary metal-oxide-semiconductor (CMOS) compatible optical processing and measurement chips. The global internet demands for energy and technology will soon be unsustainable. This project will pioneer faster, cheaper, far smaller, and more energy efficient optical signal processing and measurement chips compatible with silicon CMOS technology, for applications in telecommunications, silicon integ ....Breaking the glass ceiling: silicon-nitride (SiN) and doped silica glass for ultra high speed Complementary metal-oxide-semiconductor (CMOS) compatible optical processing and measurement chips. The global internet demands for energy and technology will soon be unsustainable. This project will pioneer faster, cheaper, far smaller, and more energy efficient optical signal processing and measurement chips compatible with silicon CMOS technology, for applications in telecommunications, silicon integrated circuits, and fundamental science.Read moreRead less