Tailoring superconducting hybrid multilayered film systems for electric and electronic applications. This project focuses on the development of new scientific and technological aspects of the fabrication, properties and operation of novel hybrid systems for revolutionizing electricity handling and electronics. It will also solve some existing problems of film structures with promising multilayer technology. Hybrid systems, often make the headlines in science and are gaining an increasingly promi ....Tailoring superconducting hybrid multilayered film systems for electric and electronic applications. This project focuses on the development of new scientific and technological aspects of the fabrication, properties and operation of novel hybrid systems for revolutionizing electricity handling and electronics. It will also solve some existing problems of film structures with promising multilayer technology. Hybrid systems, often make the headlines in science and are gaining an increasingly promising outlook in materials engineering, nanotechnology and electronics, promising eventual application in a broad range of industries. This project will establish Australia's capability at the forefront in this area. The outcomes predicted will benefit existing Australian companies and may establish new companies dealing with these hybrid systems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668302
Funder
Australian Research Council
Funding Amount
$210,000.00
Summary
Floating-zone Crystal Growth Facility. Optical floating-zone furnaces are powerful and efficient tools for the discovery and characterisation of new materials. They are widely used in the solid-state chemistry, condensed-matter physics, materials science, and engineering communities. This optical floating-zone furnace, the first in Australia, will support and encourage the growing number of local researchers in these fields. It will allow them to take much better advantage of the new research re ....Floating-zone Crystal Growth Facility. Optical floating-zone furnaces are powerful and efficient tools for the discovery and characterisation of new materials. They are widely used in the solid-state chemistry, condensed-matter physics, materials science, and engineering communities. This optical floating-zone furnace, the first in Australia, will support and encourage the growing number of local researchers in these fields. It will allow them to take much better advantage of the new research reactor and synchrotron being constructed in Australia by maximising their ability to grow crystals of technologically and scientifically important materials, particularly electronic and magnetic materials, for fundamental and applied research at those facilities.Read moreRead less
Optoelectronic properties of low-dimensional semiconductor systems and semiconductor nanostructures under terahertz free-electron laser radiation. The recent application of terahertz (THz) free-electron lasers (FELs) to scientific investigation into low-dimensional semiconductor systems and semiconductor nanostructures has opened up a new field of research in semiconductor optoelectronics. This project will conduct a joint experimental and theoretical study of how these novel systems interact w ....Optoelectronic properties of low-dimensional semiconductor systems and semiconductor nanostructures under terahertz free-electron laser radiation. The recent application of terahertz (THz) free-electron lasers (FELs) to scientific investigation into low-dimensional semiconductor systems and semiconductor nanostructures has opened up a new field of research in semiconductor optoelectronics. This project will conduct a joint experimental and theoretical study of how these novel systems interact with intense THz laser fields. Experimentally, we plan to use Beijing FELs in China to study optoelectronic properties in GaAs-and GaN based systems. Theoretically, we intend developing fundamental new approaches to theory of electron interactions with intense laser fields in semiconductors and relating theoretical results to experiments and experimental findings.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100197
Funder
Australian Research Council
Funding Amount
$1,102,947.00
Summary
Cryogenic Scanning Microwave Measurement Facility for Quantum Materials. This proposal addresses a major experimental capacity gap in Australian infrastructure for research and development of novel electronic materials and nanoscale quantum devices for future technologies. It will establish Australia's first non-contact, non-destructive, cryogenic scanning microwave microscopy facility for advanced materials characterization enabling new studies of these materials in the 2 to 300 Kelvin temperat ....Cryogenic Scanning Microwave Measurement Facility for Quantum Materials. This proposal addresses a major experimental capacity gap in Australian infrastructure for research and development of novel electronic materials and nanoscale quantum devices for future technologies. It will establish Australia's first non-contact, non-destructive, cryogenic scanning microwave microscopy facility for advanced materials characterization enabling new studies of these materials in the 2 to 300 Kelvin temperature range. The facility will provide crucial new information for the development of future quantum materials, enhancing our international competitiveness in the development of next-generation electronic materials and device technologies.Read moreRead less
Special Research Initiatives - Grant ID: SR0354682
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Australian Semiconductor Nanotechnology Network. Fundamental and strategic research in the area of semiconductor nanotechnology covering theoretical modeling, nanostructure growth, fabrication, characterization, nano-electronic and nano-photonic devices is essential for future developments in computing, communications, information technology and defence industries. The network aims to bring together all the stake holders to share the facilities, expertise to make a major impact in the field. N ....Australian Semiconductor Nanotechnology Network. Fundamental and strategic research in the area of semiconductor nanotechnology covering theoretical modeling, nanostructure growth, fabrication, characterization, nano-electronic and nano-photonic devices is essential for future developments in computing, communications, information technology and defence industries. The network aims to bring together all the stake holders to share the facilities, expertise to make a major impact in the field. Network will organize workshops, conferences to exchange ideas, to identify infrastructure needs, to promote interdisciplinary research and to expose post-doctoral fellows and postgraduate students to internationally competitive research environment. Network aims to enhance international and industry links by exchange of staff and students.Read moreRead less
Electron transport in semiconductor nanowire devices - Setting two top nanoelectronics problems on the straight and narrow. This project will establish a new program to build electronic devices using tiny semiconductor nanowires. This project will contribute strongly to Australia's ongoing efforts in semiconductor nanotechnology and quantum information science, and allow Australia to play a leading role in the development of the next generation of electronics technologies.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560959
Funder
Australian Research Council
Funding Amount
$165,000.00
Summary
The Macquarie National Low Temperature Optoelectronic Thin Film Growth Facility. Funding is requested for an Australian facility for the growth of nitride and oxide thin films with in-situ optical analysis equipment for the monitoring of growth parameters. It is envisaged that this facility would be for the development of materials and device structures for photonic, electronic and optoelectronic applications. The facility will also provide a leading Australian source of these materials for fund ....The Macquarie National Low Temperature Optoelectronic Thin Film Growth Facility. Funding is requested for an Australian facility for the growth of nitride and oxide thin films with in-situ optical analysis equipment for the monitoring of growth parameters. It is envisaged that this facility would be for the development of materials and device structures for photonic, electronic and optoelectronic applications. The facility will also provide a leading Australian source of these materials for fundamental material studies utilising nuclear analysis and implantation technologies, high resolution X-ray diffraction, high spatial resolution micro-cathodoluminescence and other forms of analysis. Ex-situ optical analysis equipment is also requested for post-growth evaluation to compliment and evaluate the in-situ analysis.Read moreRead less
Building up quantum electronics with tailored semiconductor nanostructures. This project aims to develop nanoscale indium arsenide/ gallium antimonide (InAs/GaSb) devices produced ‘from the bottom up’ using three-dimensional templated semiconductor growth methods. This material has a pair of electron and hole layers separated by a few nanometres, which provide access to states of matter such as exciton condensates and topological insulators with potential use in quantum information technologies. ....Building up quantum electronics with tailored semiconductor nanostructures. This project aims to develop nanoscale indium arsenide/ gallium antimonide (InAs/GaSb) devices produced ‘from the bottom up’ using three-dimensional templated semiconductor growth methods. This material has a pair of electron and hole layers separated by a few nanometres, which provide access to states of matter such as exciton condensates and topological insulators with potential use in quantum information technologies. The project will use templates growth to create devices where the InAs/GaSb interface sits perpendicular to the device plane. This project’s work on growth, design and production of nanoscale devices will give Australia’s transitioning economy competitive advantage and agility in critical sectors of nanotechnology, quantum technologies and energy efficient devices.Read moreRead less