Exploring Synergies between Frontier Microphotonics and Advanced Time and Frequency Technology. Recently scientists have developed the means to manufacture objects that are on the same microscopic scale as light itself. These structures can deliver exquisite control of the properties of the light beams. Our existing research has been aimed at developing some of the world's most precise measurement tools based on clocks and the pure colours generated by lasers. By combining these two technologie ....Exploring Synergies between Frontier Microphotonics and Advanced Time and Frequency Technology. Recently scientists have developed the means to manufacture objects that are on the same microscopic scale as light itself. These structures can deliver exquisite control of the properties of the light beams. Our existing research has been aimed at developing some of the world's most precise measurement tools based on clocks and the pure colours generated by lasers. By combining these two technologies, both of which lie at the extreme limit of precision, we will develop a new generation of technology for fundamental science objectives as well as for industrial needs.Read moreRead less
Hybrid radiofrequency/optical catheter for effective atrial fibrillation ablation. This research project aims to advance engineering knowledge by applying an innovative, fibre-optics-based discrete optical coherence tomography to technology used for atrial fibrillation catheter ablation. RadioFrequency catheter-based ablation is far superior to cardiac drug therapy for atrial fibrillation patients. RadioFrequency catheters are not equipped with real-time lesion formation monitoring means, which ....Hybrid radiofrequency/optical catheter for effective atrial fibrillation ablation. This research project aims to advance engineering knowledge by applying an innovative, fibre-optics-based discrete optical coherence tomography to technology used for atrial fibrillation catheter ablation. RadioFrequency catheter-based ablation is far superior to cardiac drug therapy for atrial fibrillation patients. RadioFrequency catheters are not equipped with real-time lesion formation monitoring means, which enable the assessment of continuity-transmurality and prevent extra-cardiac complications, such as steam pops. Optical Coherece Tomography enables non-invasive, microscopic lesion formation assessment in real time during atrial fibrillation ablation procedures. The expected outcomes of this project are to develop a new hybrid fibre-optic/RadioFrequency catheter system and user-friendly driving software that will enable cardiac electrophysiologists to perform three key tasks not previously available.Read moreRead less
In-vivo functional imaging of cone photoreceptors and ganglion cell axons. Can we project a movie on a human retina, and measure the response of photoreceptor cells and connected nerve tissue? This project aims to investigate a new method for visualization of the quickest responses in human cone photoreceptors and nerve cells after a visible stimulus. Expected outcomes of this project include a better understanding of the origins of responses to a stimulus and how cells in the retina communicate ....In-vivo functional imaging of cone photoreceptors and ganglion cell axons. Can we project a movie on a human retina, and measure the response of photoreceptor cells and connected nerve tissue? This project aims to investigate a new method for visualization of the quickest responses in human cone photoreceptors and nerve cells after a visible stimulus. Expected outcomes of this project include a better understanding of the origins of responses to a stimulus and how cells in the retina communicate. The scientific results will be helpful in a better understanding of the development of vision in the infant eye, to study peripheral vision in elite athletes and to quantify performance of virtual reality equipment for the military. The IP on the technology can be licensed or used for start-up company.Read moreRead less
ARC Communications Research Network. Building on a strong platform of existing research excellence, the Aim of the Network is to facilitate nation-wide collaborative research, promoting four intersecting research Themes: Mobile and Wireless Communications, Rural Communications, Broadband and Optical Networks, and Fundamentals of Emerging Media. Each Theme is formulated to drive multidisciplinary, innovative research as well as inspire new collaborative initiatives. Four Programs encapsulate the ....ARC Communications Research Network. Building on a strong platform of existing research excellence, the Aim of the Network is to facilitate nation-wide collaborative research, promoting four intersecting research Themes: Mobile and Wireless Communications, Rural Communications, Broadband and Optical Networks, and Fundamentals of Emerging Media. Each Theme is formulated to drive multidisciplinary, innovative research as well as inspire new collaborative initiatives. Four Programs encapsulate the core activities of the Network: Researcher Mobility, Workshops and Conferences, Postgraduate Education, and Knowledge Management Systems. The Network is expected to add significant value to pre-existing investments and raise the profile of Australian telecommunications research.Read moreRead less
Creation of New Precision Optical and Microwave Technologies and their Application to Testing the Fundamental of Physics. Clocks and oscillators are crucial for the highest precision scientific and industrial measurements and are the foundation of modern communications technology. Recent developments in laser-cooled optical clocks promise a wave of revolutionary changes to global navigation, timekeeping and precision measurement. Our group has already achieved world's-best performance in this f ....Creation of New Precision Optical and Microwave Technologies and their Application to Testing the Fundamental of Physics. Clocks and oscillators are crucial for the highest precision scientific and industrial measurements and are the foundation of modern communications technology. Recent developments in laser-cooled optical clocks promise a wave of revolutionary changes to global navigation, timekeeping and precision measurement. Our group has already achieved world's-best performance in this field. To stay at the forefront of this wave we propose a broad-ranging program of research aimed at:
- new clocks of 100 times higher performance than any existing clock,
- development of extremely low noise photonic oscillators,
- the application of these new technologies to test the foundations of Physics, including involvement in a space-based experiment.
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Extending the spectrum and performance of ultra-stable frequency generation. Precision oscillators developed at the University of Western Australia have application in telecommunications, advanced radar, optical to microwave links, frequency and time standards, VLBI, tests of fundamental physics etc., and have attracted worldwide interest. This project will strengthen Australian 'know how' and extend our expertise into new frequency bands essential for space communications and high frequency rad ....Extending the spectrum and performance of ultra-stable frequency generation. Precision oscillators developed at the University of Western Australia have application in telecommunications, advanced radar, optical to microwave links, frequency and time standards, VLBI, tests of fundamental physics etc., and have attracted worldwide interest. This project will strengthen Australian 'know how' and extend our expertise into new frequency bands essential for space communications and high frequency radio Astronomy. This will include necessary international collaboration with world elite institutes.Read moreRead less
Precision measurement to test fundamental physics. This project gives the University of Western Australia the opportunity to lead some of the world's best tests on fundamental physics by implementing their novel precision technology. It will also strengthen their collaboration between elite metrological institutes, including Paris Observatory, Ecole Normale Superior and Humboldt University.
Creating a national time and frequency network for Australia. This project will develop the means to distribute accurate time and frequency across the Australian continent via an optical fibre network. This network will meet the needs of future telecommunications, science and astronomy projects including the Australian bid for the Square Kilometre Array radio-astronomy project.
Worldwide Collaboration for the Creation of New Frequency Standards, and their Application to testing the Foundations of Physics. Frequency standards are crucial for the highest precision scientific measurements as well as in modern communication and information technology (C&IT). Having already achieved world-best performance for short-term frequency stability, our research team is seeking support to participate in a broad international program with three particular objectives:
(i) create ne ....Worldwide Collaboration for the Creation of New Frequency Standards, and their Application to testing the Foundations of Physics. Frequency standards are crucial for the highest precision scientific measurements as well as in modern communication and information technology (C&IT). Having already achieved world-best performance for short-term frequency stability, our research team is seeking support to participate in a broad international program with three particular objectives:
(i) create new frequency standards based on laser-cooled atoms,
(ii) develop femtosecond laser technology for generating low noise microwave and optical signals,
(iii) develop microwave technology suitable for operation in space.
Improved frequency standards will allow decisive measurements on several fundamental scientific questions, as well as leading to commercial applications in C&IT.
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