Development of a light detection system for enhanced scanning electron microscopy imaging of fully hydrated biological specimens at room temperature. This project aims to develop instrumentation and techniques to image fully hydrated cellS for prolonged periods at room temperature in an environmental scanning electron microscope. Multiple fluorescent nano-particle labels will be used to image complex cellular structure and dynamics at ultra high spatial resolution. This innovative bio-imaging te ....Development of a light detection system for enhanced scanning electron microscopy imaging of fully hydrated biological specimens at room temperature. This project aims to develop instrumentation and techniques to image fully hydrated cellS for prolonged periods at room temperature in an environmental scanning electron microscope. Multiple fluorescent nano-particle labels will be used to image complex cellular structure and dynamics at ultra high spatial resolution. This innovative bio-imaging technique will be facilitated by the construction of a high speed light collection system that can efficiently operate at the pressures required to stablise water within the cell. Applications for this new bio-imaging technique will also be explored.Read moreRead less
Better emitters, enhanced optics, superior detectors: advancing terahertz science and technology for applications in medicine, agriculture, industry and national security. We will start with a new fundamental study of the interaction of light and matter to explicate the phenomena of the emission, transmission and detection of terahertz electromagnetic radiation. Using our increased understanding of terahertz science, we will then engineer better terahertz sources, optics, and sensors. Better ter ....Better emitters, enhanced optics, superior detectors: advancing terahertz science and technology for applications in medicine, agriculture, industry and national security. We will start with a new fundamental study of the interaction of light and matter to explicate the phenomena of the emission, transmission and detection of terahertz electromagnetic radiation. Using our increased understanding of terahertz science, we will then engineer better terahertz sources, optics, and sensors. Better terahertz technology will open up new applications in medical diagnosis, especially dermatology; industrial productivity, such as quality control; and the detection of contraband, including illicit drugs and explosives. In maintaining good health, transforming industries and safeguarding Australia, advanced terahertz systems will bring the nation health, economic and security benefits.Read moreRead less
Advanced materials and structures for terahertz science and technology. Anthrax, explosives, water, cancer all have characteristic signatures in the terahertz (THz) part of the electromagnetic spectrum. Security, defence, agriculture, medicine are some of the fields where THz science and technology are booming. THz developments offer enhanced national security, prosperity and quality of life. The lack of strong sources of THz radiation is the main factor hampering wider application of THz metho ....Advanced materials and structures for terahertz science and technology. Anthrax, explosives, water, cancer all have characteristic signatures in the terahertz (THz) part of the electromagnetic spectrum. Security, defence, agriculture, medicine are some of the fields where THz science and technology are booming. THz developments offer enhanced national security, prosperity and quality of life. The lack of strong sources of THz radiation is the main factor hampering wider application of THz methods. In this project two university research teams come together to develop more efficient THz emitters. The Darmstadt team will prepare novel materials and structures and the Wollongong team will evaluate them and provide feedback for the next iteration.Read moreRead less
High Efficiency Terahertz Emitters. Between microwaves and visible light lies the terahertz gap - the least explored region of the electromagnetic spectrum. Yet the THz region is precisely where many materials exhibit characteristic signatures that allow them to be detected and identified. For example, anthrax, explosives, water, DNA, plastics, and carcinomas all have distinctive THz signatures. THz methods are revolutionizing medicine, agriculture, industry, and national security. Wider appl ....High Efficiency Terahertz Emitters. Between microwaves and visible light lies the terahertz gap - the least explored region of the electromagnetic spectrum. Yet the THz region is precisely where many materials exhibit characteristic signatures that allow them to be detected and identified. For example, anthrax, explosives, water, DNA, plastics, and carcinomas all have distinctive THz signatures. THz methods are revolutionizing medicine, agriculture, industry, and national security. Wider application is hampered by the lack of powerful sources of THz radiation. We aim to develop more efficient emitters of THz radiation. The national economy, security, and well-being will benefit.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560716
Funder
Australian Research Council
Funding Amount
$864,610.00
Summary
A National T-ray Facility. T-rays are between microwaves and infrared on the electromagnetic spectrum. Recently, advances in femtosecond lasers enabled access to T-ray frequencies, producing an important new imaging modality for non-invasive sensing of materials and structures. Internationally, T-rays represent a rich new science leading to advanced forms of biophotonics, biomedical imaging and spectroscopy. Non-invasive T-ray diagnostics of nano- and bio-materials are being hotly pursued. The o ....A National T-ray Facility. T-rays are between microwaves and infrared on the electromagnetic spectrum. Recently, advances in femtosecond lasers enabled access to T-ray frequencies, producing an important new imaging modality for non-invasive sensing of materials and structures. Internationally, T-rays represent a rich new science leading to advanced forms of biophotonics, biomedical imaging and spectroscopy. Non-invasive T-ray diagnostics of nano- and bio-materials are being hotly pursued. The outcome will be a strategically important Australian T-ray facility that will provide immediate and transparent nationwide access. Historically, industry is transformed every time a new part of the electromagnetic spectrum becomes accessible - T-rays are the next frontier.Read moreRead less
Development of modal control systems for adaptive optics. This project will develop a simple, robust and low-cost modal servo system for dynamic control and correction of the propagation and focussing properties of light beams. This new system will incorporate a novel optical sensor, which will be developed in this project, and a new optical corrector being developed at the University of Durham. Currently available astronomical adaptive-optics systems have produced excellent results but are expe ....Development of modal control systems for adaptive optics. This project will develop a simple, robust and low-cost modal servo system for dynamic control and correction of the propagation and focussing properties of light beams. This new system will incorporate a novel optical sensor, which will be developed in this project, and a new optical corrector being developed at the University of Durham. Currently available astronomical adaptive-optics systems have produced excellent results but are expensive and complicated. A low-cost alternative will dramatically increase the use of adaptive optics in industrial, environmental and medical applications. The compensation of distortions in low-cost optical atmospheric sensors will be demonstrated.Read moreRead less
MICROWAVE SENSORS BASED ON MULTI-LAYER MICROSTRIP PATCH RESONATORS AND LINE RESONATORS. Inexpensive, easy-to-use, accurate, sensitive and compact sensor systems are needed to improve the quality of many agricultural and industrial products. For example, edible oil industry needs such a system to determine the water content in the seeds used for edible oil. Similarly, the measurement of moisture content is crucial for quality control and grading of industrial oils, paints, health products and man ....MICROWAVE SENSORS BASED ON MULTI-LAYER MICROSTRIP PATCH RESONATORS AND LINE RESONATORS. Inexpensive, easy-to-use, accurate, sensitive and compact sensor systems are needed to improve the quality of many agricultural and industrial products. For example, edible oil industry needs such a system to determine the water content in the seeds used for edible oil. Similarly, the measurement of moisture content is crucial for quality control and grading of industrial oils, paints, health products and many industrial sheets. We develop novel microwave sensor systems, based on multi-layer microstrip resonators, for such measurements of materials in the form of sheets, pastes, liquids or powders. They are also attractive for scientific applications such as monitoring the doping concentration of semiconductor materials.Read moreRead less
Preparing for the next generation global navigation satellite system era: developing and testing new user and reference station receiver designs. The gross accumulated benefits of the widespread adoption of Gnss technology in the mining, agriculture and construction sectors alone by 2030 could be between $66B and $126B, primarily due to improvements in Gnss machine guidance systems - energy savings, reduction in carbon dioxide emissions, improved agricultural practices, etc. The national benefit ....Preparing for the next generation global navigation satellite system era: developing and testing new user and reference station receiver designs. The gross accumulated benefits of the widespread adoption of Gnss technology in the mining, agriculture and construction sectors alone by 2030 could be between $66B and $126B, primarily due to improvements in Gnss machine guidance systems - energy savings, reduction in carbon dioxide emissions, improved agricultural practices, etc. The national benefit would be enormous if the project could help facilitate the rapid and orderly introduction into Australia of high accuracy multi-constellation Gnss positioning technology. This project would also enable Australian researchers and industry to build up expertise in new Gnss signals and techniques, all crucial for supporting a local industry for next generation navigation products and services.Read moreRead less
Micromanipulation system. Many frontier areas such as micromanufacturing, microsurgery, biotechnology, and nanotechnology require high precision micromanipulation systems. This project aims to investigate fundamental issues in micromanipulation systems using an ARC-LIEF funded research facility, and establish methodologies for modelling and analysis, together with their experimental verification to evaluate the influence of various parameters in such systems. The findings will be utilised to e ....Micromanipulation system. Many frontier areas such as micromanufacturing, microsurgery, biotechnology, and nanotechnology require high precision micromanipulation systems. This project aims to investigate fundamental issues in micromanipulation systems using an ARC-LIEF funded research facility, and establish methodologies for modelling and analysis, together with their experimental verification to evaluate the influence of various parameters in such systems. The findings will be utilised to establish sensory-based control techniques to solve problems associated with predictability, control, and efficiency for future advancement of such novel systems. The outcomes will include acquiring new knowledge in micromanipulation systems for potential utilization of the innovative concepts in the frontier areas.Read moreRead less
Analysis, Optimization, and Control of Scanning Atomic Force Microscope Micro-Cantilever Probes. Atomic Force Microscopes (AFM's) are widely used for the examination of samples smaller than can be observed with an optical microscope. A tiny 'finger', only a few atoms wide at its sharpest point, is used to 'feel' the surface of a sample. This project aims to increase the resolution of AFM images by actively controlling the sensor probe dynamics.
Better quality AFM images would allow scientists ....Analysis, Optimization, and Control of Scanning Atomic Force Microscope Micro-Cantilever Probes. Atomic Force Microscopes (AFM's) are widely used for the examination of samples smaller than can be observed with an optical microscope. A tiny 'finger', only a few atoms wide at its sharpest point, is used to 'feel' the surface of a sample. This project aims to increase the resolution of AFM images by actively controlling the sensor probe dynamics.
Better quality AFM images would allow scientists to further investigate the atomic and molecular structure of such samples as: metals, polymers, cells, and proteins.
This research will contribute to the design of an Australian made Scanning Probe Microscope. Development of local expertise will provide a valuable resource for Australian scientific and industrial research.
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