Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0221428
Funder
Australian Research Council
Funding Amount
$530,000.00
Summary
A Transportable Optical Frequency Counter, Synthesizer and Super-Continuum Generator (OFCSSG). The generation of ultra-short light pulses of just a few femtoseconds (one thousand-trillionth of a second) in duration has enabled applications in a wide range of fields, but complexity and cost has limited availability. This project will employ recently developed optical fibre and solid-state laser technology to create a cost-effective compact transportable facility of highly coherent, ultra-broadba ....A Transportable Optical Frequency Counter, Synthesizer and Super-Continuum Generator (OFCSSG). The generation of ultra-short light pulses of just a few femtoseconds (one thousand-trillionth of a second) in duration has enabled applications in a wide range of fields, but complexity and cost has limited availability. This project will employ recently developed optical fibre and solid-state laser technology to create a cost-effective compact transportable facility of highly coherent, ultra-broadband radiation. The source will enable new research and substantially enrich existing research in optical time standards and metrology, in-vivo biological imaging, and ultrafast spectroscopy. No such facility is presently available in AustraliaRead moreRead less
Diamond based single spin detector. It is expected that the development of the diamond based spin detector will further enhance Australia's international reputation as a significant contributor to the broad field of nanotechnology. The spin detection technology will have many applications in a variety of fields that rely on nanoscale precision measurement of single quantum systems.
Single spin detection will also be a pivotal tool in the push to produce quantum information technologies, a fi ....Diamond based single spin detector. It is expected that the development of the diamond based spin detector will further enhance Australia's international reputation as a significant contributor to the broad field of nanotechnology. The spin detection technology will have many applications in a variety of fields that rely on nanoscale precision measurement of single quantum systems.
Single spin detection will also be a pivotal tool in the push to produce quantum information technologies, a field that has been invested in heavily by the Australian government. This device will significantly enhance the potential success of a range of projects related to such nanoscale science.
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Elucidating the mechanisms by which Scribble, Discs Large and Lethal Giant Larvae regulate epithelial polarity. Discs Large (Dlg) and Scribble are proteins that regulate cell shape by concentrating at particular regions within the cell and recruiting other proteins to that region. It is thought that the two proteins interact with each other, and with other proteins involved in protein trafficking and cell architecture, but it is not known how these events coordinate to produce a net outcome on ....Elucidating the mechanisms by which Scribble, Discs Large and Lethal Giant Larvae regulate epithelial polarity. Discs Large (Dlg) and Scribble are proteins that regulate cell shape by concentrating at particular regions within the cell and recruiting other proteins to that region. It is thought that the two proteins interact with each other, and with other proteins involved in protein trafficking and cell architecture, but it is not known how these events coordinate to produce a net outcome on cell shape. To answer these questions, the dynamic events involved in localization of Dlg, Scribble, and associated proteins will be determined, in mammalian cells and in whole organs of the vinegar fly.Read moreRead less
Development of a neutral helium beam microscope. This project would demonstrate Australia's capability in developing leading edge technologies applicable to the growing nanotechnology industry. The development of a neutral helium beam microscope brings into Australia expertise in the emerging field of molecular optics, and would place Australia as one of the first countries to make a commitment to this field. The project will develop a prototype instrument which is aimed at becoming a commercial ....Development of a neutral helium beam microscope. This project would demonstrate Australia's capability in developing leading edge technologies applicable to the growing nanotechnology industry. The development of a neutral helium beam microscope brings into Australia expertise in the emerging field of molecular optics, and would place Australia as one of the first countries to make a commitment to this field. The project will develop a prototype instrument which is aimed at becoming a commercially viable product - the neutral helium beam microscope. The possibilities of using the microscope system as a nanofabrication device would also give researchers in Australia the ability to fabricate structures that could not be manufactured anywhere else in the world.Read moreRead less
Generalized imaging systems incorporating hybrid hardware-software optics. Fundamental optics research underpins the commercial optical technologies of tomorrow. Modern examples of such evolution, from the fundamental to the commercial, include lasers, LED traffic lights, thin-screen computer monitors and digital cameras. The recent advent of accessible powerful computers, together with recent advances in optical physics, promise a powerful merging of computing and optical technologies into so ....Generalized imaging systems incorporating hybrid hardware-software optics. Fundamental optics research underpins the commercial optical technologies of tomorrow. Modern examples of such evolution, from the fundamental to the commercial, include lasers, LED traffic lights, thin-screen computer monitors and digital cameras. The recent advent of accessible powerful computers, together with recent advances in optical physics, promise a powerful merging of computing and optical technologies into so-called virtual optical systems in which the computer processes optical information in a manner very similar to lenses. In particular, the computer may be used to decode distorted images provided by an imperfect imaging system. Read moreRead less
Advanced X-ray Optical Systems: From innovative idea to intelligent implementation. This project combines advances made in x-ray optics by the x-ray physics group at the University of Melbourne with sophisticated microfabrication techniques developed at Swinburne University of Technology and at the Argonne National Laboratory synchrotron. This fusion gives us immediate access into a major space science initiative - an x-ray telescope for the International Space Station. At the same time we will ....Advanced X-ray Optical Systems: From innovative idea to intelligent implementation. This project combines advances made in x-ray optics by the x-ray physics group at the University of Melbourne with sophisticated microfabrication techniques developed at Swinburne University of Technology and at the Argonne National Laboratory synchrotron. This fusion gives us immediate access into a major space science initiative - an x-ray telescope for the International Space Station. At the same time we will be building a kernel of excellence, based on new approaches to x-ray imaging, that will be strategically placed to become an integral part of the development of experimental facilities for the Australian Synchrotron.Read moreRead less
Non-Interferometric Phase Measurement of Exotic Waves. Phase is a key concept in all aspects of physics from biological microscopy through to length measurement and on to industrial inspection. The University of Melbourne has developed a new class of phase measurement techniques that possesses unprecedented flexibility. The aim of this project is to build on the international leadership of the Australian team so as to fully explore and develop these techniques.
Moving-beam phase retrieval - a route to better microscopy! This research will benefit the nation by improving the quality of x-ray diffraction and electron microscopy techniques available to Australian scientists. It will make it possible to examine microscopic structures in more detail and therefore gain more information about the atomic positions in these structures. This will greatly benefit research that depends on finding the structure of very small objects. Such research areas include ....Moving-beam phase retrieval - a route to better microscopy! This research will benefit the nation by improving the quality of x-ray diffraction and electron microscopy techniques available to Australian scientists. It will make it possible to examine microscopic structures in more detail and therefore gain more information about the atomic positions in these structures. This will greatly benefit research that depends on finding the structure of very small objects. Such research areas include nanomaterials, biological engineering, medical science and materials science. The work is also expected to have industrial applications and to make an important contribution to the development of the synchrotron science industry in Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0228799
Funder
Australian Research Council
Funding Amount
$1,602,000.00
Summary
Australian Membership of the International Gemini Partnership. The International Gemini Partnership is an intergovernmental consortium formed to construct and operate two 8-metre optical/infrared telescopes, one in Chile, and the other in Hawaii. Australia joined the IGP in May 1998, taking approximately 5% of the partnership. The Gemini telescopes have been carefully engineered to exploit the superb atmospheric conditions at both sites, allowing users to address key astronomical problems in way ....Australian Membership of the International Gemini Partnership. The International Gemini Partnership is an intergovernmental consortium formed to construct and operate two 8-metre optical/infrared telescopes, one in Chile, and the other in Hawaii. Australia joined the IGP in May 1998, taking approximately 5% of the partnership. The Gemini telescopes have been carefully engineered to exploit the superb atmospheric conditions at both sites, allowing users to address key astronomical problems in ways not previously possible. Through membership of Gemini, Australian astronomers have access to the world-class facilities necessary to maintain their high international profile and great public visibility in Galactic and extragalactic astronomy, and also to enhance the national capacity to construct advanced scientific instrumentation. Australia has already won a contract to build one of the instruments.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453817
Funder
Australian Research Council
Funding Amount
$1,849,438.00
Summary
Australian Membership of the International Gemini Partnership. The International Gemini Partnership is an intergovernmental consortium formed to build and operate two 8-metre optical/infrared telescopes, one in Chile and the other in Hawaii. Australia joined the IGP in May 1998, taking approximately 5% of the partnership. The Gemini telescopes have been carefully engineered to exploit the superb atmospheric conditions at both sites, allowing users to address key astronomical problems in ways not ....Australian Membership of the International Gemini Partnership. The International Gemini Partnership is an intergovernmental consortium formed to build and operate two 8-metre optical/infrared telescopes, one in Chile and the other in Hawaii. Australia joined the IGP in May 1998, taking approximately 5% of the partnership. The Gemini telescopes have been carefully engineered to exploit the superb atmospheric conditions at both sites, allowing users to address key astronomical problems in ways not previously possible. Through membership of Gemini, Australian astronomers have access to the world-class facilities necessary to maintain their high international profile and the great public visibility in Galactic and extragalactic astronomy, and also to enhance the national capacity to
construct advanced scientific instrumentation. Australia is currently building one of the instruments.
Note: in A7.1 GAMS incorrectly forces integer days/month. In full operation Australian astronomers will receive approximately 25 nights per year.Read moreRead less