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
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
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
Australian Laureate Fellowships - Grant ID: FL0992016
Funder
Australian Research Council
Funding Amount
$2,064,351.00
Summary
Frontiers of Precision Time and Frequency. Devices for precise frequency and time metrology invented at the University of Western Australia have application in telecommunications, advanced radar, optical to microwave links, frequency and time standards, astronomy, tests of fundamental physics and have attracted worldwide interest. This project will strengthen Australian "know how" and expertise, and place us in a position to participate in current and future space missions. Moreover, this repres ....Frontiers of Precision Time and Frequency. Devices for precise frequency and time metrology invented at the University of Western Australia have application in telecommunications, advanced radar, optical to microwave links, frequency and time standards, astronomy, tests of fundamental physics and have attracted worldwide interest. This project will strengthen Australian "know how" and expertise, and place us in a position to participate in current and future space missions. Moreover, this represents an opportunity for high profile involvement as the only southern hemisphere user of the most accurate space clock ever developed, which will likely involve the order of 30 institutes worldwide. This work necessarily includes collaboration with the world's elite metrological institutes.Read moreRead less
Techniques for probing biological media with holographic angular scattering spectroscopy. Huge effort in the biological and medical sciences is spent in using simple software to laboriously mark, count and measure cells and structures in microscope images of samples. We could replace this incredibly inefficient process in many instances with single-shot size-map images of unstained samples. If depth selectivity can be added, we could perform non-invasive measurements on animals, making a huge re ....Techniques for probing biological media with holographic angular scattering spectroscopy. Huge effort in the biological and medical sciences is spent in using simple software to laboriously mark, count and measure cells and structures in microscope images of samples. We could replace this incredibly inefficient process in many instances with single-shot size-map images of unstained samples. If depth selectivity can be added, we could perform non-invasive measurements on animals, making a huge reduction in their usage. We could assess thick tissues enabling early noninvasive diagnosis of malignancy in tumours in situ or muscle characterization for meat quality or muscular dystrophy. These benefits impact on research, animal ethics, and on health, and have commercial potential in life and medical sciences, and the meat industry.Read moreRead less
Coherent optical tissue biopsy and analysis targeting muscle pathology. This international, interdisciplinary collaborative research should change the way structures in tissues are characterised with broad impact on health, biotechnology, and the meat industry. Specific benefits include: a large reduction in the time/effort required for the ubiquitous process of histology of muscle and other tissue sections and samples; a large reduction in the number of animals required in experimentation and ....Coherent optical tissue biopsy and analysis targeting muscle pathology. This international, interdisciplinary collaborative research should change the way structures in tissues are characterised with broad impact on health, biotechnology, and the meat industry. Specific benefits include: a large reduction in the time/effort required for the ubiquitous process of histology of muscle and other tissue sections and samples; a large reduction in the number of animals required in experimentation and the possibility of time sequential studies of the same animal; and in muscular dystrophy in humans, a new capability in the direct assessment of muscle tissue and the disease treatment and progression. This suite of advances should generate intellectual property of major commercial importance.Read moreRead less
Optical coherence elastography - High-resolution medical imaging of tissue mechanical properties. This project brings together an international, multi-disciplinary team to develop innovative, high-resolution techniques to identify diseased tissue. Success will result in a new medical imaging technique allowing clinicians to quantify the mechanical properties of tissue, effectively creating a high-resolution image of what the tissue 'feels' like. This may help them to more accurately identify can ....Optical coherence elastography - High-resolution medical imaging of tissue mechanical properties. This project brings together an international, multi-disciplinary team to develop innovative, high-resolution techniques to identify diseased tissue. Success will result in a new medical imaging technique allowing clinicians to quantify the mechanical properties of tissue, effectively creating a high-resolution image of what the tissue 'feels' like. This may help them to more accurately identify cancerous tissue during surgery and reduce rates of recurrence. It could aid in tissue engineering and regeneration and will provide a new database of tissue mechanical properties. The project will position Australia as a leader in this newly developing medical imaging technology, with significant potential for commercialisation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775668
Funder
Australian Research Council
Funding Amount
$210,000.00
Summary
Direct write - microphotonics fabrication facility. Direct write-microfabrication, where an ultrafast laser is focussed to a small, intense spot and translated under computer control with respect to a target sample, has emerged as a significant enabling technology creating new opportunities in microphotonics. The proposed facility will enable researchers to modify the internal properties of glass blocks and write 'optical wires' (or waveguides). By combining waveguides with other laser written f ....Direct write - microphotonics fabrication facility. Direct write-microfabrication, where an ultrafast laser is focussed to a small, intense spot and translated under computer control with respect to a target sample, has emerged as a significant enabling technology creating new opportunities in microphotonics. The proposed facility will enable researchers to modify the internal properties of glass blocks and write 'optical wires' (or waveguides). By combining waveguides with other laser written functional components researchers will develop devices capable of processing optical information. Outcomes will include demonstrations of compact lasers and slow light generation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0345794
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Spectroscopic Imaging Ellipsometry for Opto-VLSI Engineering and Nanotechnology Applications. The focus for implementation of spectroscopic imaging ellipsometry is to create a powerful optical analysis and characterisation tool to complement the advanced integrated circuit test facilities within Western Australia. This infrastructure will facilitate the integration of the fields of materials research, new device technologies, integrated circuit technology, nanotechnology and photonics in the exp ....Spectroscopic Imaging Ellipsometry for Opto-VLSI Engineering and Nanotechnology Applications. The focus for implementation of spectroscopic imaging ellipsometry is to create a powerful optical analysis and characterisation tool to complement the advanced integrated circuit test facilities within Western Australia. This infrastructure will facilitate the integration of the fields of materials research, new device technologies, integrated circuit technology, nanotechnology and photonics in the expanding field of Opto-VLSI. The proposed equipment is being built upon targeted research in VLSI, and will create an additional platform for innovations in microelectronic technology applicable to the communications, information technology, energy generation, security, and biomedical fields.Read moreRead less
Investigation of vertical magneto-transport in infrared detector structures based on InAs/GaSb type-II superlattices. Infrared sensors and systems are finding increasing use in Australia's core industries: particularly defence, mineral exploration, environmental monitoring, precision agriculture, homeland security, and medical diagnostics. Due to the reduced cooling requirements, the Infrared detector structures to be investigated in this project have the potential to deliver high performance in ....Investigation of vertical magneto-transport in infrared detector structures based on InAs/GaSb type-II superlattices. Infrared sensors and systems are finding increasing use in Australia's core industries: particularly defence, mineral exploration, environmental monitoring, precision agriculture, homeland security, and medical diagnostics. Due to the reduced cooling requirements, the Infrared detector structures to be investigated in this project have the potential to deliver high performance infrared technology at a significantly lower cost and, hence, widening its applications. The new science proposed in this project, and new technological knowledge expected from its application, will allow Australian researchers to participate and significantly contribute to the international effort in this field and to exploit any developed intellectual property. Read moreRead less