Discovery Early Career Researcher Award - Grant ID: DE130100954
Funder
Australian Research Council
Funding Amount
$374,852.00
Summary
Tailoring light with advanced plasmonic devices. The project will develop advanced nanophotonic elements for the control of light. The outcomes will progress the knowledge of optics on the nanoscale and will underpin new devices for use in a range of applications including biotechnology, medicine, defence and telecommunications.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454008
Funder
Australian Research Council
Funding Amount
$340,962.00
Summary
Multi-function high resolution-analytical scanning electron microscope facility. The aim of this proposal is to establish a high resolution electron microscope facility as part of a comprehensive materials characterisation infrastructure required to support Swinburne's expanding activities in nanotechnology. A high resolution SEM in conjunction with an upgrade of the current SEM will provide advanced instrumentation for nanoscale imaging, analysis and manipulation of materials. The proposed faci ....Multi-function high resolution-analytical scanning electron microscope facility. The aim of this proposal is to establish a high resolution electron microscope facility as part of a comprehensive materials characterisation infrastructure required to support Swinburne's expanding activities in nanotechnology. A high resolution SEM in conjunction with an upgrade of the current SEM will provide advanced instrumentation for nanoscale imaging, analysis and manipulation of materials. The proposed facility will create new opportunities for collaborative programs with local and overseas researcher and will facilitate rapid progress in research programs across the entire University in particular those related to two ARC Centres of Excellence in which the University is a core partner.Read moreRead less
Characterisation and fabrication of nanophotonic devices based on multi-layer stacks. The aim of this proposal is to continue the existing collaborative project on fabrication and characterisation of nanophotonic devices based on the multi-layer stack method. The project will integrate the state-of-the-art techniques in the respective collaborating universities to fabricate a nano-probe which can produce an evanescent field approximately four orders of magnitude stronger than that under the conv ....Characterisation and fabrication of nanophotonic devices based on multi-layer stacks. The aim of this proposal is to continue the existing collaborative project on fabrication and characterisation of nanophotonic devices based on the multi-layer stack method. The project will integrate the state-of-the-art techniques in the respective collaborating universities to fabricate a nano-probe which can produce an evanescent field approximately four orders of magnitude stronger than that under the conventional condition. This novel probe provides a key to the successful fabrication of innovative nanophotonic devices including photonic transistors, photonic circuits, high-density data storage disks and drives, nano-motors and biochips, which underpin biotechnology, information technology and optical computing technology.Read moreRead less
A novel spectrum encoding technology using nanoparticles for high-density, high-speed information coding and retrieval. The key-sector in high tech markets has been the photonics industry over the last decade, and it will continue to revolutionise our ways of information storage, processing and transfer for the next 10 to 20 years. The current project of novel spectrum-encoding technology will prove to be the key technological innovation in photonics (one of the National Research Priorities), w ....A novel spectrum encoding technology using nanoparticles for high-density, high-speed information coding and retrieval. The key-sector in high tech markets has been the photonics industry over the last decade, and it will continue to revolutionise our ways of information storage, processing and transfer for the next 10 to 20 years. The current project of novel spectrum-encoding technology will prove to be the key technological innovation in photonics (one of the National Research Priorities), which will not only meet the growing demands of the consumer market, but also continue to drive the industry and create new markets. This is in line with the Priority Goals set by the Minister for Education, Science and Training, as it will put Australia into the unique position in the information age.Read moreRead less
All-on-chip twisted light modulator for ultrahigh-capacity data processing. The project aims to develop a conceptually new all-on-chip twisted light modulator via photonic integration of a customised twisted-light metasurface with on-chip optical waveguides. The goal is to replace current bulky, slow, and costly spatial light modulators by a compact nanophotonic chip for the generation and detection of multiple twisted-light modes. Project outcomes include new knowledge in photonic integration a ....All-on-chip twisted light modulator for ultrahigh-capacity data processing. The project aims to develop a conceptually new all-on-chip twisted light modulator via photonic integration of a customised twisted-light metasurface with on-chip optical waveguides. The goal is to replace current bulky, slow, and costly spatial light modulators by a compact nanophotonic chip for the generation and detection of multiple twisted-light modes. Project outcomes include new knowledge in photonic integration and 3D meta-optics, and novel nanophotonic devices for twisted light, which will expand applications of twisted light for all-on-chip fibre-optic communications and holographic displays. The ultra-compact, high-capacity, efficient twisted-light modulators are expected to have a practical impact on many photonic applications.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668381
Funder
Australian Research Council
Funding Amount
$750,000.00
Summary
Foundational National Nanotechnology Infrastructure. Breakthough nanotechnologies based on quantum mechanics promise useful devices for absolutely secure transmission of information encoded in quantum states, ultra-rapid searching through genome databases for unique gene sequences, faster electronic and photonic devices, robust devices made from diamond and better processing of biomedical materials for diagnosis of illness. Fabrication and characterization of these devices provides training for ....Foundational National Nanotechnology Infrastructure. Breakthough nanotechnologies based on quantum mechanics promise useful devices for absolutely secure transmission of information encoded in quantum states, ultra-rapid searching through genome databases for unique gene sequences, faster electronic and photonic devices, robust devices made from diamond and better processing of biomedical materials for diagnosis of illness. Fabrication and characterization of these devices provides training for research students in state-of-the-art techniques with many uses. Deeper understanding of these quantum technologies will lead to better models for some of the most puzzling aspects of quantum mechanical systems that are the foundation of the physical processes of
our universe.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347464
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Setting up an integrated wirebonding and testing facility for MEMS applications. This project intends to setup an integrated wire bonding and testing facility suitable for Micro electromechanical systems (MEMS) applications. Wire bonding is an essential step for making the contacts of any micro device with external power supply or signal conditioning circuitry. The contact pads for such devices vary in size from 0.050 mm x 0.050 mm to few 100s of micrometers. The proposed facility will be requi ....Setting up an integrated wirebonding and testing facility for MEMS applications. This project intends to setup an integrated wire bonding and testing facility suitable for Micro electromechanical systems (MEMS) applications. Wire bonding is an essential step for making the contacts of any micro device with external power supply or signal conditioning circuitry. The contact pads for such devices vary in size from 0.050 mm x 0.050 mm to few 100s of micrometers. The proposed facility will be required for making contacts either using thermal or ultrasonic methods with complete automatic stages. The electrical contacts are used to drive or monitor MEMS, Polymer micro devices and nano- fluidic systems. This facility will be used for different applications including photonics and communication devices (RMIT), flexi circuits and microwave devices (DSTO) and micro/nano fluidic systems (SUT). This will be the only advanced integrated facility in Victoria, which will have the wire bonding(ball & wedge), die bonding and bond testing facilities together.Read moreRead less
Active Control of Light for Nonlinear Photonic Devices. In free space, light travels in a straight line, but since ancient times mankind has always sought to direct its propagation. Controlling light is an enduring problem in modern photonic technologies. The ultimate goal is to actively manipulate light propagation in space and time with a great accuracy. With this project we will investigate the fundamental science of active control of light in periodic structures and will provide a unique pla ....Active Control of Light for Nonlinear Photonic Devices. In free space, light travels in a straight line, but since ancient times mankind has always sought to direct its propagation. Controlling light is an enduring problem in modern photonic technologies. The ultimate goal is to actively manipulate light propagation in space and time with a great accuracy. With this project we will investigate the fundamental science of active control of light in periodic structures and will provide a unique platform for exploration of ground breaking optical physics, ensuring Australia remains a world leader in the field. Precision manipulation of light will form the basis of new techniques for all-optical signal processing and computing, with great impact on Australian photonic and defense industries.Read moreRead less