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
Silicon Photonic Platform for Quantum Encryption and Communications. The integrity of a secure communications link can mean the difference between life and death in a defence environment. In the civilian arena, the security of electronic financial transactions is also critical to guard against 'cyber' theft. Encryption of data using unique quantum 'noise' as a key has been proposed as an exceptionally strong approach. Attempts to intercept the key during transmission can easily be detected.
....Silicon Photonic Platform for Quantum Encryption and Communications. The integrity of a secure communications link can mean the difference between life and death in a defence environment. In the civilian arena, the security of electronic financial transactions is also critical to guard against 'cyber' theft. Encryption of data using unique quantum 'noise' as a key has been proposed as an exceptionally strong approach. Attempts to intercept the key during transmission can easily be detected.
Quantum key transmission has been demonstrated but requires impractically expensive, bulky and exotic equipment. This project will explore low-cost, silicon chip based quantum key transfer modules. Our aim is to render quantum encryption as simple as adding an expansion card to a standard computer or portable device.Read moreRead less
Nonlinear photonic crystals. Photonic crystals have recently became very attractive for photonic technology, that uses light instead of slow electrons as the information carriers replacing electronics in communications and information management. This project has the purpose to develop the fundamental concept of nonlinear photonic crystals and demonstrate their possible applications analysing the properties of the nonlinearity-induced light localization, nonlinear transmission, and frequency co ....Nonlinear photonic crystals. Photonic crystals have recently became very attractive for photonic technology, that uses light instead of slow electrons as the information carriers replacing electronics in communications and information management. This project has the purpose to develop the fundamental concept of nonlinear photonic crystals and demonstrate their possible applications analysing the properties of the nonlinearity-induced light localization, nonlinear transmission, and frequency conversion in band-gap materials with the intensity-dependent optical response. This will allow the possibility realising in practice nonlinear switching even for sharply bent waveguides, providing an effective way to control the flow of light in band-gap photonic circuits.Read moreRead less
Solitons and localised structures in nonlocal nonlinear media. Solitons - localised waves existing in nonlinear media may propagate without changing their shape and interact with each other as real particles. They are ubiquitous in nature - exist in any system exhibiting dispersion and nonlinearity. This project aims to study theoretically and experimentally properties of beams and solitons in non-local nonlinear systems. It will lay out theoretical foundations of the nonlocal solitons and d ....Solitons and localised structures in nonlocal nonlinear media. Solitons - localised waves existing in nonlinear media may propagate without changing their shape and interact with each other as real particles. They are ubiquitous in nature - exist in any system exhibiting dispersion and nonlinearity. This project aims to study theoretically and experimentally properties of beams and solitons in non-local nonlinear systems. It will lay out theoretical foundations of the nonlocal solitons and demonstrate experimentally their unique features. This research will have an impact on understanding of the soliton phenomena in many fields including optics and matter waves, providing knowledge which may be subsequently transferred to practical technologies, such as in formation of optical circuits.Read moreRead less
Bifurcations of dissipative solitons. Fundamental research on the basic concepts of solitons in dissipative systems and their bifurcations is the next essential step for further progress in the science of optical pulse generators and amplifiers. Australia was the first country in the world to use self-organized ultra-short pulses, called solitons, in a commercially-deployed optical transmission line. This proposed new research will answer the question of how solitons behave at the ultimate limi ....Bifurcations of dissipative solitons. Fundamental research on the basic concepts of solitons in dissipative systems and their bifurcations is the next essential step for further progress in the science of optical pulse generators and amplifiers. Australia was the first country in the world to use self-organized ultra-short pulses, called solitons, in a commercially-deployed optical transmission line. This proposed new research will answer the question of how solitons behave at the ultimate limits of optics. New principles of ultra-short pulse generation and amplification, developed in our research, will provide the basis for an unprecedented increase in the capacity of optical transmission and processing of information.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
Dissipative soliton resonances and their applications. Many branches of science and technology, such as precise eye surgery, biological cell machinery, painless dentistry, optical data storage, material micro-machining and laser fusion, rely heavily on high power femtosecond pulse laser oscillators that deliver the necessary power, in a very short time, to nanometer scale targets within a tissue or a material. A further increase in the power of a pulse and a decrease in its duration, combined wi ....Dissipative soliton resonances and their applications. Many branches of science and technology, such as precise eye surgery, biological cell machinery, painless dentistry, optical data storage, material micro-machining and laser fusion, rely heavily on high power femtosecond pulse laser oscillators that deliver the necessary power, in a very short time, to nanometer scale targets within a tissue or a material. A further increase in the power of a pulse and a decrease in its duration, combined with a reduction in complexity and price can be achieved, but this advance depends strongly on the theory of dissipative solitons, and particularly on the idea of soliton resonances. Novel ideas developed within this project will put new productive tools in the hands of doctors, biologists and physicists.Read moreRead less
Ultrafast photonic integrated circuits: Unlocking the bandwidth. Australia's prosperity increasingly depends on its communications infrastructure and supporting technologies. We will develop optical technologies to deliver vast increases in bandwidth at low cost. This will be achieved by building a photonic integrated circuit from a breakthrough material that offers ultrafast all-optical switching capability. This infrastructure will be critical to almost all areas of Australian society: commerc ....Ultrafast photonic integrated circuits: Unlocking the bandwidth. Australia's prosperity increasingly depends on its communications infrastructure and supporting technologies. We will develop optical technologies to deliver vast increases in bandwidth at low cost. This will be achieved by building a photonic integrated circuit from a breakthrough material that offers ultrafast all-optical switching capability. This infrastructure will be critical to almost all areas of Australian society: commerce, personal communications, e-health and entertainment, and will improve the quality of life and the economic competitiveness of urban, rural and regional Australia. The outcomes will include the creation of spin-off companies to commercialise the optical technologies.Read moreRead less
Optomechanical refrigeration of electronic circuits. The project aims to apply laser light to reduce the temperature of electronic circuits. This aims to greatly suppress electronic noise, and enable a new class of technologies for future telecommunication systems. By developing new techniques to confine light, electric fields and vibrations at sub-micron scale on a silicon chip, devices such as ultralow noise amplifiers, clocks and radio frequency receivers will be realised, along with ultra-ef ....Optomechanical refrigeration of electronic circuits. The project aims to apply laser light to reduce the temperature of electronic circuits. This aims to greatly suppress electronic noise, and enable a new class of technologies for future telecommunication systems. By developing new techniques to confine light, electric fields and vibrations at sub-micron scale on a silicon chip, devices such as ultralow noise amplifiers, clocks and radio frequency receivers will be realised, along with ultra-efficient optical modulators. In future, these technologies could reduce energy consumption and improve reliability in telecommunication networks. They could improve the range of satellite communication, robustness of GPS against cosmic radiation, and performance of surveillance systems such as radar and sonar.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