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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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989127
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
A High-Throughput Neutron Spectrometer for The Study of Atomic and Molecular Motion at ANSTO. Neutron scattering enables new science across a broad range of disciplines, and for this reason it is undergoing major expansion in the USA, Europe, Japan and Australia. Various diffactometers and spectrometers have recently been built at ANSTO, but an instrumental option for a high-throughput cross-discipline spectroscopy is urgently needed. Fortunately, it is fairly straightforward to add this type of ....A High-Throughput Neutron Spectrometer for The Study of Atomic and Molecular Motion at ANSTO. Neutron scattering enables new science across a broad range of disciplines, and for this reason it is undergoing major expansion in the USA, Europe, Japan and Australia. Various diffactometers and spectrometers have recently been built at ANSTO, but an instrumental option for a high-throughput cross-discipline spectroscopy is urgently needed. Fortunately, it is fairly straightforward to add this type of option to an existing spectrometer that will broaden its user-base from specialised applications in physics to more general applications in physics, chemistry, materials-science and biology. This additional option provides a totally new way for Australian scientists to study atomic and molecular motions. Read moreRead less
Diamond Single Photon Source. This project will enhance Australia's international profile in the area of quantum technology and will link, for the first time, diamond single photon capability with fibre optics technology, building on the strengths of both fields. The innovative steps in photonics and materials science which we are initiating place us in a unique position to exploit the emerging niche market for single photon sources. A provisional patent application for this technology is bein ....Diamond Single Photon Source. This project will enhance Australia's international profile in the area of quantum technology and will link, for the first time, diamond single photon capability with fibre optics technology, building on the strengths of both fields. The innovative steps in photonics and materials science which we are initiating place us in a unique position to exploit the emerging niche market for single photon sources. A provisional patent application for this technology is being lodged by the applicant and University of Melbourne colleagues in conjunction with QUCOR Pty Ltd. Success in researching and developing this device will help consolidate Australia's reputation as a global contributor to leading edge science and technology. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347797
Funder
Australian Research Council
Funding Amount
$263,000.00
Summary
A Versatile High-resolution X-ray Diffractometer for Materials Research. The aim of this project is to establish a state-of-the-art triple-axis x-ray diffraction facility capable of non-destructively analysing complex semiconductor materials and structures investigated by all Australian semiconductor-growing groups. Growers and device engineers will be able to control growth processes accurately and correlate device performance with structural analysis. Modern triple-axis instruments can also b ....A Versatile High-resolution X-ray Diffractometer for Materials Research. The aim of this project is to establish a state-of-the-art triple-axis x-ray diffraction facility capable of non-destructively analysing complex semiconductor materials and structures investigated by all Australian semiconductor-growing groups. Growers and device engineers will be able to control growth processes accurately and correlate device performance with structural analysis. Modern triple-axis instruments can also be used for high-resolution texture analysis and surface reflectivity measurements on numerous types of materials. Thus chemists, geologists, and materials scientists with interests outside of the semiconductor growth community will gain substantial benefit from this instrument for the investigation of materials of technological and economic importance.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100060
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Year-round accessible angle-resolved photoemission spectroscopy facility . Year-round accessible angle-resolved photoemission spectroscopy facility: This project aims to create a year-round readily accessible facility for angle-resolved photoemission spectroscopy combined with in situ scanning tunnelling microscopy, cementing Australia's leadership position in novel electronic materials research. The facility is the first of its kind in Australia, housed at the Australian Synchrotron, and access ....Year-round accessible angle-resolved photoemission spectroscopy facility . Year-round accessible angle-resolved photoemission spectroscopy facility: This project aims to create a year-round readily accessible facility for angle-resolved photoemission spectroscopy combined with in situ scanning tunnelling microscopy, cementing Australia's leadership position in novel electronic materials research. The facility is the first of its kind in Australia, housed at the Australian Synchrotron, and accessible to a broad user base. The facility will be an essential tool for study of new electronic materials such as graphene, two-dimensional semiconductors, topological insulators, and superconductors. This research aims to lead to new thermoelectric, photovoltaic, superconducting, and computing devices, revolutionising the generation, transfer, storage, and use of electrical energy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775646
Funder
Australian Research Council
Funding Amount
$636,000.00
Summary
Surface and Magnetic structure of crystalline materials. This proposal brings together significant research groups in La Trobe University, Monash University, the University of Western Australia, Newcastle University and Sydney University to establish a unique materials characterisation facility which will enable surface and magnetic structures of technologically significant materials to be determined. It will support developments in the areas of new magnetic phenomenon which is used in magnetic ....Surface and Magnetic structure of crystalline materials. This proposal brings together significant research groups in La Trobe University, Monash University, the University of Western Australia, Newcastle University and Sydney University to establish a unique materials characterisation facility which will enable surface and magnetic structures of technologically significant materials to be determined. It will support developments in the areas of new magnetic phenomenon which is used in magnetic sensing and in the exploration of processes of size reduction for electronic devices. It will enable this new, world leading technology, to be applied to surface structures relevant in the areas of nanotechnology and catalysis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668065
Funder
Australian Research Council
Funding Amount
$623,000.00
Summary
High resolution images of surfaces. This proposal brings together significant research groups in La Trobe University, Macquarie University, the University of Western Australia and ANSTO to work in areas which will enhance Australia's capability in the area of Magnetic devices and spintronics. It will support developments in the areas of new magnetic phenomenon which is used in magnetic sensing and in the exploration of processes of size reduction for electronic devices. It will enhance the acc ....High resolution images of surfaces. This proposal brings together significant research groups in La Trobe University, Macquarie University, the University of Western Australia and ANSTO to work in areas which will enhance Australia's capability in the area of Magnetic devices and spintronics. It will support developments in the areas of new magnetic phenomenon which is used in magnetic sensing and in the exploration of processes of size reduction for electronic devices. It will enhance the access of undergraduates and postgraduates to the emerging technologies. It will connect Australia to internationally significant research outcomes leading to, for example, new magnetic and electronic devices with a continuing decrease in their size. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100118
Funder
Australian Research Council
Funding Amount
$1,800,000.00
Summary
UltraTEM: Resolving the structure of matter in space, energy and time. This project aims to establish a transmission electron microscope facility to analyse materials structure at the atomic level. A small number of atoms in critical locations governs the properties of materials from solar cells and catalysts to aerospace alloys, bio-sensors and quantum computers. To understand and engineer matter at this atomic level, tools are needed to characterise these critical atoms. This open access, nati ....UltraTEM: Resolving the structure of matter in space, energy and time. This project aims to establish a transmission electron microscope facility to analyse materials structure at the atomic level. A small number of atoms in critical locations governs the properties of materials from solar cells and catalysts to aerospace alloys, bio-sensors and quantum computers. To understand and engineer matter at this atomic level, tools are needed to characterise these critical atoms. This open access, national facility will be able to characterise matter at the atomic-level. Expected outcomes include better understanding of the natural world and advanced materials to solve problems in energy, technology, health, environment, communications, advanced manufacturing, transport and security.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100132
Funder
Australian Research Council
Funding Amount
$1,486,000.00
Summary
A triple beam microscope: new frontiers in materials nanocharacterisation. This project aims to establish a triple beam ion and electron microscope facility for the modification, preparation and characterisation of materials that have hitherto been too sensitive for high resolution analysis with charged particle beams. It is expected that materials will be studied artefact-free and at the nanoscale with twin ion beams and new detectors that allow novel imaging modes and extreme chemical sensitiv ....A triple beam microscope: new frontiers in materials nanocharacterisation. This project aims to establish a triple beam ion and electron microscope facility for the modification, preparation and characterisation of materials that have hitherto been too sensitive for high resolution analysis with charged particle beams. It is expected that materials will be studied artefact-free and at the nanoscale with twin ion beams and new detectors that allow novel imaging modes and extreme chemical sensitivity plus controlled atmosphere transfer to other instruments for correlative measurements. This unique facility should benefit research in many disciplines such as physics, chemistry, geology, pharmacy, materials, civil and chemical engineering by allowing first-ever observations of vital phenomena in diverse materials.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL120100038
Funder
Australian Research Council
Funding Amount
$2,645,586.00
Summary
Understanding and controlling the properties of Dirac electronic materials. This project will gain deep insights into a new class of materials that includes graphene, the thinnest possible plane of carbon. New electronic properties will be engineered in Dirac materials to make them valuable for applications in computing, sensors, and solar power generation.