Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100126
Funder
Australian Research Council
Funding Amount
$527,638.00
Summary
Advanced Maskless Photolitography for Western Australia. This project aims to close an existing gap in micro- & nano-fabrication in Western Australia and provide access to advanced maskless photolithography in support of Australian research flagships of international excellence which include advanced infrared and quantum technologies, semiconductor optoelectronics, chemical engineering, microelectromechanical systems, as well as dark matter and gravitational wave discovery. Notably, the new capa ....Advanced Maskless Photolitography for Western Australia. This project aims to close an existing gap in micro- & nano-fabrication in Western Australia and provide access to advanced maskless photolithography in support of Australian research flagships of international excellence which include advanced infrared and quantum technologies, semiconductor optoelectronics, chemical engineering, microelectromechanical systems, as well as dark matter and gravitational wave discovery. Notably, the new capability is of utmost importance for five distinct ARC Centres in multidisciplinary areas and will be available to all researchers via the WA Node of Australian National Fabrication Facility in support of high impact scientific research and to maintain strong engagement with industry and Australian economy.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100924
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Integrated Interconnects in Data Centres and High-Performance Computing. High-speed interconnects are needed to link, transmit, retrieve, and process intensive data in a time- and energy-efficient and cost-effective manner in data centres and high-performance computing. This project aims to investigate high-speed, integrated interconnects, including novel integrated devices and transceivers on silicon platforms, flexible subsystems and overall system architecture. The research outcomes will be b ....Integrated Interconnects in Data Centres and High-Performance Computing. High-speed interconnects are needed to link, transmit, retrieve, and process intensive data in a time- and energy-efficient and cost-effective manner in data centres and high-performance computing. This project aims to investigate high-speed, integrated interconnects, including novel integrated devices and transceivers on silicon platforms, flexible subsystems and overall system architecture. The research outcomes will be beneficial to a number of industries including integrated chip and circuit design and fabrication, integrated systems, and network infrastructures, and will enable faster platforms for cloud computing, sensing, signal processing, and computational health.Read moreRead less
Sustainability in Computing: A Holistic View. Green computing must provide sustainable processing capabilities with high energy efficiency (lower carbon footprint) and increased product longevity (reducing the need for product replacement). While advances in technology have afforded significant reduction in power requirements, they come with inherent challenges due to uncertainties in micro-scale behaviour, high complexity of quantifying/optimising energy cost or system lifetime in extreme scale ....Sustainability in Computing: A Holistic View. Green computing must provide sustainable processing capabilities with high energy efficiency (lower carbon footprint) and increased product longevity (reducing the need for product replacement). While advances in technology have afforded significant reduction in power requirements, they come with inherent challenges due to uncertainties in micro-scale behaviour, high complexity of quantifying/optimising energy cost or system lifetime in extreme scale computing, and the interaction of non-computing components with individual computing systems. This project addresses these challenges via a holistic, multi-scale paradigm for modelling, analysis, and optimisation of energy cost, carbon footprint, and product lifetime in emerging computing systems.Read moreRead less
Probing and harnessing the light-matter interactions in two-dimensional phosphorene. This project aims to investigate phosphorene, a new two-dimensional material, for the development of new optical and electronic devices. Such materials have unique optical and electronic properties due to their flat physical structure, which gives rise to strong interactions between light and matter. The expected outcome of this project will be new kinds of near infrared light emitting diodes, single photon emit ....Probing and harnessing the light-matter interactions in two-dimensional phosphorene. This project aims to investigate phosphorene, a new two-dimensional material, for the development of new optical and electronic devices. Such materials have unique optical and electronic properties due to their flat physical structure, which gives rise to strong interactions between light and matter. The expected outcome of this project will be new kinds of near infrared light emitting diodes, single photon emitters and ground-breaking lasers. These developments will enable the fabrication of new low-power light sources that can integrate with communication technologies now, and quantum communication technologies in the future.Read moreRead less
Generating Highly Entangled Photons from Nonlinear Monolayer Domes. This project aims to investigate novel monolayer domes for the development of high-performance quantum photon sources. This research expects to expand our understanding of fundamental physics of photon pair generation in nonlinear optical materials. Such monolayer domes have ultra-high optical nonlinearity, which gives rise to strong light-matter interactions and enables high-efficiency photon pair generation. The expected outco ....Generating Highly Entangled Photons from Nonlinear Monolayer Domes. This project aims to investigate novel monolayer domes for the development of high-performance quantum photon sources. This research expects to expand our understanding of fundamental physics of photon pair generation in nonlinear optical materials. Such monolayer domes have ultra-high optical nonlinearity, which gives rise to strong light-matter interactions and enables high-efficiency photon pair generation. The expected outcome is demonstration of a prototype light-weight and intense quantum photon source based on novel materials, which can be readily integrated with photonic circuits for quantum communication technologies. This research could strengthen the development of new industries and lead to job creation.Read moreRead less
Harnessing Interlayer Biexcitons in Atomically Thin Heterostructures. This project aims to investigate the generation of high-quality quantum light sources by harnessing interlayer biexcitons in atomically thin heterostructures. This research expects to expand our understanding of fundamental physics of photon pair generation in atomically thin heterostructures. The expected outcome is demonstration of a prototype light-weight and intense quantum photon source based on novel materials, which can ....Harnessing Interlayer Biexcitons in Atomically Thin Heterostructures. This project aims to investigate the generation of high-quality quantum light sources by harnessing interlayer biexcitons in atomically thin heterostructures. This research expects to expand our understanding of fundamental physics of photon pair generation in atomically thin heterostructures. The expected outcome is demonstration of a prototype light-weight and intense quantum photon source based on novel materials, which can be readily integrated with photonic circuits for quantum communication technologies, enbling the developments of light weight portable devices, such as mobile phones, displays, and wearable photonics. This research could strengthen the development of new industries and lead to job creation in Australia. Read moreRead less
Plasmon mode lasers; smaller, faster, better. High speed Information Technology (IT) communication is using more and more of our global energy. Energy efficiency of IT hardware can be improved by incorporating small, high performance lasers for short distance optical communication. New metallic and plasmonic nano-lasers lasers are indeed smaller and in theory can have performance advantages over current dielectric cavity lasers. This project looks at developing new electrically pumped plasmonic ....Plasmon mode lasers; smaller, faster, better. High speed Information Technology (IT) communication is using more and more of our global energy. Energy efficiency of IT hardware can be improved by incorporating small, high performance lasers for short distance optical communication. New metallic and plasmonic nano-lasers lasers are indeed smaller and in theory can have performance advantages over current dielectric cavity lasers. This project looks at developing new electrically pumped plasmonic lasers with nano scale semiconductors that satisfy requirements for short distance optical communications. Complex systems of these small, fast lasers will also be investigated, with the aim of providing high speed digital processing capabilities exceeding those of electronics.Read moreRead less
Wearable device design with continuous cuff-less blood pressure measurement. This project aims to develop a non-invasive, body-worn device able to monitor blood pressure (BP) continuously in real time. The project proposes new sensing techniques for blood pressure measurement based on capturing pulse transit time in the central arteries using a combination of electrical bio-impedance, electrocardiogram (ECG), and continuous wave radar. Coupled with other vital parameters including heart rate, he ....Wearable device design with continuous cuff-less blood pressure measurement. This project aims to develop a non-invasive, body-worn device able to monitor blood pressure (BP) continuously in real time. The project proposes new sensing techniques for blood pressure measurement based on capturing pulse transit time in the central arteries using a combination of electrical bio-impedance, electrocardiogram (ECG), and continuous wave radar. Coupled with other vital parameters including heart rate, heart rhythm, respiratory rate, and oxygen saturation, it is expected that the device will enable remote monitoring with wireless connectivity and with many advantages over the traditional wired monitoring methods currently used in healthcare environments and it will assist with more effective prevention, home care and treatment.Read moreRead less
Designing Radiation-Tolerant Reconfigurable Systems for Space. The processing speed, cost and flexibility requirements of future satellite-based applications cannot be satisfied with conventional radiation-hardened processors or custom integrated circuits. This project aims to develop key technology to enable off-the-shelf hardware to be customised for this use without compromising reliability. The project aims to develop the design methods needed to implement a given set of satellite applicatio ....Designing Radiation-Tolerant Reconfigurable Systems for Space. The processing speed, cost and flexibility requirements of future satellite-based applications cannot be satisfied with conventional radiation-hardened processors or custom integrated circuits. This project aims to develop key technology to enable off-the-shelf hardware to be customised for this use without compromising reliability. The project aims to develop the design methods needed to implement a given set of satellite applications on a processing platform composed of application-specific soft processors and accelerator circuits hosted on conventional reconfigurable logic devices. Crucially, the solution architecture is expected to be sufficiently hardened against radiation-induced errors while meeting performance and circuit area constraints.Read moreRead less
Low cost, efficient and more reliable power switching network. This project aims to propose new power electronics circuit integration concepts and control techniques to reduce power supply cost by at least 30 per cent while improving efficiency and reliability. Photovoltaic combined battery storage application will be implemented and tested in detail to demonstrate the feasibility of the proposed concepts. The outcomes of the project will benefit many emerging technologies such as electric vehic ....Low cost, efficient and more reliable power switching network. This project aims to propose new power electronics circuit integration concepts and control techniques to reduce power supply cost by at least 30 per cent while improving efficiency and reliability. Photovoltaic combined battery storage application will be implemented and tested in detail to demonstrate the feasibility of the proposed concepts. The outcomes of the project will benefit many emerging technologies such as electric vehicles, renewable energy and energy storage systems, wireless communications and portable devices.Read moreRead less