Non-Gaussian states and entanglement distillation for Continuous Variable quantum information protocols. Amplifiers are important devices for electronic, computer as well as telecommunication industries. In the quantum world where light's corpuscular nature is prominent, amplification of a beam of light will have its associated noise penalty. This noise penalty sets limit to many quantum optical applications. This proposal aims to use a method based on conditional detection to realize a 'noisel ....Non-Gaussian states and entanglement distillation for Continuous Variable quantum information protocols. Amplifiers are important devices for electronic, computer as well as telecommunication industries. In the quantum world where light's corpuscular nature is prominent, amplification of a beam of light will have its associated noise penalty. This noise penalty sets limit to many quantum optical applications. This proposal aims to use a method based on conditional detection to realize a 'noiseless linear amplifier' that has no noise penalty probabilistically. Realization of this key device is central to extending the range of quantum communication, such as quantum cryptography. It also has applications in quantum computing and the potential to enhance sensitive measurements.Read moreRead less
Studies of near-field optical emission from waveguides and photonic crystals. Advanced optical materials and photonic devices require microscopic feature sizes close to the wavelength of light, challenging the limits of conventional fabrication and characterisation techniques (often developed in parallel). With extensive expertise in near-field optical modelling, Dr Rahmani will target specific problems associated with the characterisation of actual photonic devices. This will improve device de ....Studies of near-field optical emission from waveguides and photonic crystals. Advanced optical materials and photonic devices require microscopic feature sizes close to the wavelength of light, challenging the limits of conventional fabrication and characterisation techniques (often developed in parallel). With extensive expertise in near-field optical modelling, Dr Rahmani will target specific problems associated with the characterisation of actual photonic devices. This will improve device design and fabrication, enabling the development of more efficient, compact lasers and other devices. Economic and social benefits are expected from resulting improvements in optical processing, and the potential for new jobs and industries in this field.Read moreRead less
Quantum and atom optics. The applicant leads a highly successful group of young investigators, achieving internationally acclaimed work in quantum optics. Photonics technology is now at the brink of using the full advantage of quantum mechanics, through the concept of quantum information in optical and atomic systems. The experiments at the ANU group can provide new applications to the photonics industry, in particular in communication, sensing and microscopy. The proposed work is expected to ....Quantum and atom optics. The applicant leads a highly successful group of young investigators, achieving internationally acclaimed work in quantum optics. Photonics technology is now at the brink of using the full advantage of quantum mechanics, through the concept of quantum information in optical and atomic systems. The experiments at the ANU group can provide new applications to the photonics industry, in particular in communication, sensing and microscopy. The proposed work is expected to create fundamental research and generate future commercial opportunities in an area where Australian science is at the leading edge of research and the international demand is rising.Read moreRead less
Advances in Quantum Imaging and Quantum Memory using Squeezed Light and Entanglement. Maintaining a leading position in fundamental research will always result in directly related technologies or spin-offs. Being the first to demonstrate a Quantum Memory and spatial entanglement will guarantee Australia a leading role in two promising quantum research fields. High sensitive position measurements as used in Atomic Force Microscopy can directly benefit from developments of this project. The demons ....Advances in Quantum Imaging and Quantum Memory using Squeezed Light and Entanglement. Maintaining a leading position in fundamental research will always result in directly related technologies or spin-offs. Being the first to demonstrate a Quantum Memory and spatial entanglement will guarantee Australia a leading role in two promising quantum research fields. High sensitive position measurements as used in Atomic Force Microscopy can directly benefit from developments of this project. The demonstration of a Quantum Memory for continuous variables will boost the progress in the realisation of a future quantum network. The participation at a high level in the Quantum research community will bring worldwide recognition to Australia.Read moreRead less
The Standard Quantum Limit and Beyond. The uncertainty principle sets limits on the sensitivity to which any measurement can be made - the standard quantum limit (SQL). This limit is yet to be reached on a macroscopic object and, until recently, was regarded as unsurpassable. Due to the rapid improvement in optical measurement technology developed for Gravitational Wave Astronomy, there is now the prospect of experimentally reaching the standard quantum limit within this decade. This project wi ....The Standard Quantum Limit and Beyond. The uncertainty principle sets limits on the sensitivity to which any measurement can be made - the standard quantum limit (SQL). This limit is yet to be reached on a macroscopic object and, until recently, was regarded as unsurpassable. Due to the rapid improvement in optical measurement technology developed for Gravitational Wave Astronomy, there is now the prospect of experimentally reaching the standard quantum limit within this decade. This project will harness much of this technology to achieve the SQL. It will also experimentally develop new quantum measurement techniques to surpass this limit.Read moreRead less
Continuous Variable Quantum Information Experiments. Quantum information is a research field that exploits the richness of modern quantum theory for measurement, communication and information processing. This fellowship aims at using quantum optics to demonstrate a range of exciting communication and metrological applications that are otherwise impossible with classical physics. Example applications are: Quantum teleportation - a method for the noiseless transport of quantum information; Qua ....Continuous Variable Quantum Information Experiments. Quantum information is a research field that exploits the richness of modern quantum theory for measurement, communication and information processing. This fellowship aims at using quantum optics to demonstrate a range of exciting communication and metrological applications that are otherwise impossible with classical physics. Example applications are: Quantum teleportation - a method for the noiseless transport of quantum information; Quantum cryptography - a crypto-communication system that has absolute security and; Nano-imaging - optical imaging techniques that offer resolution beyond the diffraction limit. These "quantum technology" are predicted to revolutionize information and communication technologies. Read moreRead less
Quantum repeater technologies for continuous variable. It is often said that quantum mechanics will revolutionise 21st century technologies in the same way as Maxwell's electromagnetic theory did in the 20th century. Amongst these technologies, quantum information, and more precisely quantum communication techniques are expected to revolutionise telecommunication systems, both in terms of security and capabilities. A near term application of quantum communication, that is already semi-commercial ....Quantum repeater technologies for continuous variable. It is often said that quantum mechanics will revolutionise 21st century technologies in the same way as Maxwell's electromagnetic theory did in the 20th century. Amongst these technologies, quantum information, and more precisely quantum communication techniques are expected to revolutionise telecommunication systems, both in terms of security and capabilities. A near term application of quantum communication, that is already semi-commercial, is Quantum Key Distribution, a novel cryptographic method whose absolute security is ensured by the laws of physics. The range of transmission of these quantum communication protocols, however, is currently limited, a limitation that this proposal aims at alleviating. Read moreRead less
Quantum Photonics with continuous laser beams. Quantum information and communication is a new paradigm in information technology which utilises quantum physics to improve current limitations in speed, security and fidelity of information transmission and processing, extending the present Electronics and Photonics devices. Future applications will include teleportation, cryptography and ultimately quantum computation. We propose to investigate these applications using continuous (CW) laser beams ....Quantum Photonics with continuous laser beams. Quantum information and communication is a new paradigm in information technology which utilises quantum physics to improve current limitations in speed, security and fidelity of information transmission and processing, extending the present Electronics and Photonics devices. Future applications will include teleportation, cryptography and ultimately quantum computation. We propose to investigate these applications using continuous (CW) laser beams and the Einstein-Podolsky-Rosen (EPR) quantum entanglement, which is generated via a pair of optical parametric oscillators. The advantages of CW over the established single photon technology is better detection efficiency, wider data bandwidth and compatibility with existing Photonics technology.Read moreRead less
Direct deep-ultraviolet tunable laser sources generating continuous and ultra-short-pulse radiation for photonics applications. This project will develop two versatile and efficient sources of tunable deep-ultraviolet laser radiation. These sources are an enabling photonics technology that will have impact in the applied fields of precision spectroscopy and flow cytometry for detection of biological agents. The proposed ultrafast laser source will enable new fundamental research probing high-ene ....Direct deep-ultraviolet tunable laser sources generating continuous and ultra-short-pulse radiation for photonics applications. This project will develop two versatile and efficient sources of tunable deep-ultraviolet laser radiation. These sources are an enabling photonics technology that will have impact in the applied fields of precision spectroscopy and flow cytometry for detection of biological agents. The proposed ultrafast laser source will enable new fundamental research probing high-energy processes, such as ultrafast chemical reactions, on the femtosecond timescale.
Training through an APD fellowship in the national priority area of Frontier technologies: photonics will enhance Australia's expertise in this important area. Read moreRead less
Detectors and sources for photonic quantum engineering. This collaboration brings together two of the leading groups in quantum information and will speed the development of breakthrough technologies. Dr Jennewein is a senior member of one of the leading quantum optics groups in the world, with strong scientific credentials; Prof. White is an expert in making, applying, and detecting photons for quantum information. Dr Jennewein's experience will enhance research training of Australian students; ....Detectors and sources for photonic quantum engineering. This collaboration brings together two of the leading groups in quantum information and will speed the development of breakthrough technologies. Dr Jennewein is a senior member of one of the leading quantum optics groups in the world, with strong scientific credentials; Prof. White is an expert in making, applying, and detecting photons for quantum information. Dr Jennewein's experience will enhance research training of Australian students; using the unique facilities available in Australia, his research will be the first in the world to combine bright photon sources and efficient photon detectors, enabling new quantum technologies such as quantum communication, metrology, and computation.Read moreRead less