Storage of non-classical light in a solid. A new scheme for storing and recalling coherent light pulses based on 'slow light' has been demonstrated. The aim of this project is to show how this can best be achieved in a solid to enable practical applications. A range of materials will be investigated. The novel feature of the storage is the maintenace of the coherence information and a noise analysis will be made to determine whether it is experimentally possible to store non-classical light.
Passively switched mid-infrared fibre lasers using saturable absorbers placed internally or externally to the geometry of the fibre. This project will create new pulsed mid-infrared fibre lasers based on original and recently developed passive switching techniques. An original class of fibre laser systems will be shown that is based on the internal placement of saturable absorbers within the optical fibre itself. A configuration such as this will enable the production of very simple pulsed laser ....Passively switched mid-infrared fibre lasers using saturable absorbers placed internally or externally to the geometry of the fibre. This project will create new pulsed mid-infrared fibre lasers based on original and recently developed passive switching techniques. An original class of fibre laser systems will be shown that is based on the internal placement of saturable absorbers within the optical fibre itself. A configuration such as this will enable the production of very simple pulsed laser systems of high efficiency and potentially high power. This will lead into the development of practical pulsed oscillator systems the output of which can be used directly or optically amplified for applications requiring high power.Read moreRead less
Quantum technologies based on crystalline rare-earth ion doped optical waveguides and resonators. Quantum information processing is a powerful emerging technology that aims to fully exploit the properties of quantum mechanics to perform computations and securely transmit information. This project will develop an essential component for this technology that will enable for the first time the direct and reversible transfer of quantum information between solid-state quantum systems and light. Succ ....Quantum technologies based on crystalline rare-earth ion doped optical waveguides and resonators. Quantum information processing is a powerful emerging technology that aims to fully exploit the properties of quantum mechanics to perform computations and securely transmit information. This project will develop an essential component for this technology that will enable for the first time the direct and reversible transfer of quantum information between solid-state quantum systems and light. Successful completion of this project will provide a route to fully scalable quantum computing and long range quantum networks. This project will help secure Australia's leading role in this strategically important new generation technology.Read moreRead less
Solid state optical quantum information technology. There is a significant effort in Australia and around the world to develop quantum information technologies. This project, by demonstrating a suite of critical building blocks for quantum information processing, will support Australia's strong position in this emerging technology.
A major motivation for the effort directed at quantum information technologies is the impact they will have on the security of data transmission, both in breakin ....Solid state optical quantum information technology. There is a significant effort in Australia and around the world to develop quantum information technologies. This project, by demonstrating a suite of critical building blocks for quantum information processing, will support Australia's strong position in this emerging technology.
A major motivation for the effort directed at quantum information technologies is the impact they will have on the security of data transmission, both in breaking existing encryptions and implementing new encryption systems. The successful completion of this project will provide the essential components for a secure long distance quantum communication network. Read moreRead less
Development of a quantum computer based on solid-state optical impurity sites. The use of optical impurity sites in solid-state hosts as a basis for a quantum computer will be investigated. This project will experimentally demonstrate and characterize all the functions necessary for the operation of a scalable quantum computer. A significant advantage of the current approach is that all these functions can be performed optically, circumventing the need for the complex fabrication found in othe ....Development of a quantum computer based on solid-state optical impurity sites. The use of optical impurity sites in solid-state hosts as a basis for a quantum computer will be investigated. This project will experimentally demonstrate and characterize all the functions necessary for the operation of a scalable quantum computer. A significant advantage of the current approach is that all these functions can be performed optically, circumventing the need for the complex fabrication found in other solid-state quantum computing schemes.Read moreRead less
Develoment of a quantum repeater. Quantum information processing is a powerful emerging technology that aims to fully exploit the properties of quantum mechanics to perform computations and securely transmit information. This project will develop an essential component for this technology that will enable for the first time the direct and reversible transfer of quantum information between solid-state quantum systems and light. Successful completion of this project will provide a route to fully s ....Develoment of a quantum repeater. Quantum information processing is a powerful emerging technology that aims to fully exploit the properties of quantum mechanics to perform computations and securely transmit information. This project will develop an essential component for this technology that will enable for the first time the direct and reversible transfer of quantum information between solid-state quantum systems and light. Successful completion of this project will provide a route to fully scalable quantum computing and long range quantum networks. This project will help secure Australia's leading role in this strategically important new generation technology.Read moreRead less
A comparative study of the laser-tissue interaction between solid state 213nm vs excimer gas 193nm laser systems. We will carry out a comparative study of the latest technological developments in laser vision correction surgery. We will compare the biological effects of a new solid state laser operating at 213nm and a traditional excimer gas laser operating at 193nm. For each laser type, long-term scarring, cytotoxicity, mutagenicity and free radical production will be studied in relevant in viv ....A comparative study of the laser-tissue interaction between solid state 213nm vs excimer gas 193nm laser systems. We will carry out a comparative study of the latest technological developments in laser vision correction surgery. We will compare the biological effects of a new solid state laser operating at 213nm and a traditional excimer gas laser operating at 193nm. For each laser type, long-term scarring, cytotoxicity, mutagenicity and free radical production will be studied in relevant in vivo and in vitro animal models. Furthermore, optimization of the irradiation protocol for the solid state laser will lead to the development of a wide range of biological applications.Read moreRead less