Photonic Crystal Quantum Dot Lasers. Nanotechnology is expected to make a major impact in all industry sectors. This research has the potential to develop patentable technologies of interest to Australian industries in the fields of computers, communications, defence, environmental and medical sensing. This project will enhance Australia's international links with UK, France, Canada, Korea and USA and allow us to train skilled personnel essential for the development of high tech industries in ....Photonic Crystal Quantum Dot Lasers. Nanotechnology is expected to make a major impact in all industry sectors. This research has the potential to develop patentable technologies of interest to Australian industries in the fields of computers, communications, defence, environmental and medical sensing. This project will enhance Australia's international links with UK, France, Canada, Korea and USA and allow us to train skilled personnel essential for the development of high tech industries in Australia. Read moreRead less
Normal forms and Chern-Moser connection in the study of Cauchy-Riemann Manifolds. This research project is aimed at a systematic study of Cauchy-Riemann manifolds, their holomorphic mappings and automorphisms, by means of a unifying approach based on
Chern-Moser type normal forms. The importance of Cauchy-Riemann manifolds stems from the fact that they bridge complex structure and holomorphy with the Riemannian nature of real manifolds. Construction of an analogue of the Chern-Moser normal form ....Normal forms and Chern-Moser connection in the study of Cauchy-Riemann Manifolds. This research project is aimed at a systematic study of Cauchy-Riemann manifolds, their holomorphic mappings and automorphisms, by means of a unifying approach based on
Chern-Moser type normal forms. The importance of Cauchy-Riemann manifolds stems from the fact that they bridge complex structure and holomorphy with the Riemannian nature of real manifolds. Construction of an analogue of the Chern-Moser normal form for multicodimensional Levi-nondegenerate CR-manifolds and extension of CR-mappings between them are major goals in complex analysis. Identification of Chern-Moser chains and equivariant linearisation of isotropy automorphisms are major goals in geometry.Read moreRead less
Chaotic Semiconductor Lasers and Controllability of Semiconductor Laser Noise. Chaotic semiconductor lasers (CSLs) are emerging as a potentially important light source for optical communication systems with improved security. Novel designs for compact, practical CSLs that can be integrated into existing optical communications networks will result. CSL systems suitable for secure point-to-point optical communication systems will also be developed. Fabrication of the devices in Australia means th ....Chaotic Semiconductor Lasers and Controllability of Semiconductor Laser Noise. Chaotic semiconductor lasers (CSLs) are emerging as a potentially important light source for optical communication systems with improved security. Novel designs for compact, practical CSLs that can be integrated into existing optical communications networks will result. CSL systems suitable for secure point-to-point optical communication systems will also be developed. Fabrication of the devices in Australia means there is the opportunity for commercial exploitation at a national level. The scientific study of the characteristics of the CSLs, especially the chaos, will be interesting to the scientific and general community. The early career researchers involved will benefit from high quality professional development experiences.Read moreRead less
Adaptive optical devices by microstructuring of nanocomposite materials. This project will develop novel nanocomposite materials and use them to fabricate adaptive optical devices designed and fabricated using innovative methods. Specifically, we will develop and characterise transparent composite materials comprising a dispersion of nano-sized inclusions within a polymer host. The properties of these materials will be tailored to allow fabrication of adaptive optical devices (e.g. tunable filte ....Adaptive optical devices by microstructuring of nanocomposite materials. This project will develop novel nanocomposite materials and use them to fabricate adaptive optical devices designed and fabricated using innovative methods. Specifically, we will develop and characterise transparent composite materials comprising a dispersion of nano-sized inclusions within a polymer host. The properties of these materials will be tailored to allow fabrication of adaptive optical devices (e.g. tunable filters and optical switches), which will be key components in future high-performance optical systems. Inverse scattering design methods will be extended to design two-dimensional bandgap devices which will be fabricated by microstructuring of the composite polymer materials.Read moreRead less
Microwave-modulated optical systems for free-space and undersea communications. Although offering flexible, rapid deployment, free space and underwater comunications have not kept up with progress in optical fibre communications, and current systems are signficantly restricted in range and data rate. To address these needs, we will develop novel laser systems using coherent detection, with infrared output for eyesafe transmission in air, and blue-green output for transmission underwater. The s ....Microwave-modulated optical systems for free-space and undersea communications. Although offering flexible, rapid deployment, free space and underwater comunications have not kept up with progress in optical fibre communications, and current systems are signficantly restricted in range and data rate. To address these needs, we will develop novel laser systems using coherent detection, with infrared output for eyesafe transmission in air, and blue-green output for transmission underwater. The signal is a microwave modulation on the optical carrier, which permits longer-range transmission while maintaining signal coherence. Key advantages include increased detection sensitivity, and potential to scale up the modulation frequency and the power for higher data rates and longer propagation distance.Read moreRead less
Quantum limits in measurement and communication. By manipulating atoms and single particles of light, quantum technologies promise a revolution in communications systems and high-precision measurements for scientific and engineering applications. The benefits of this revolution may be comparable with those of modern semiconductors. This project will bring these benefits closer by achieving the fundamental limits to measurement allowed by quantum physics, and harnessing the power of these measure ....Quantum limits in measurement and communication. By manipulating atoms and single particles of light, quantum technologies promise a revolution in communications systems and high-precision measurements for scientific and engineering applications. The benefits of this revolution may be comparable with those of modern semiconductors. This project will bring these benefits closer by achieving the fundamental limits to measurement allowed by quantum physics, and harnessing the power of these measurements for communication. It will also identify ways to simplify potential quantum technologies, hastening their adoption. This research will place Australian theoretical and experimental researchers at the forefront of 21st century technology.Read moreRead less
Quantum Opto-Mechatronics. Quantum science is the precise study of the physical world in the nanoscopic realm. It accurately predicts a wide range of physical phenomena that have no classical analogues. Understanding and controlling these quantum phenomena will play an increasingly important role in transforming 21st century technologies. This fellowship aims to realise the potential of combining optical, mechanical, and atomic systems in the quantum regime to deliver quantum enhancement to a ra ....Quantum Opto-Mechatronics. Quantum science is the precise study of the physical world in the nanoscopic realm. It accurately predicts a wide range of physical phenomena that have no classical analogues. Understanding and controlling these quantum phenomena will play an increasingly important role in transforming 21st century technologies. This fellowship aims to realise the potential of combining optical, mechanical, and atomic systems in the quantum regime to deliver quantum enhancement to a range of applications such as future-proofing information security via quantum cryptography and improving sensor technology with quantum measurement.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