Active photonic and plasmonic components based on parity-time symmetry. This project intends to uncover and demonstrate experimentally the role of symmetry in space and time in nonlinear photonics and plasmonics, where light can change the optical properties of the medium. Based on these results, the project aims to build an integrated optical signal amplifier and an integrated generator of entangled photons with previously inaccessible ultra-fast broad-range control of operating regimes. These ....Active photonic and plasmonic components based on parity-time symmetry. This project intends to uncover and demonstrate experimentally the role of symmetry in space and time in nonlinear photonics and plasmonics, where light can change the optical properties of the medium. Based on these results, the project aims to build an integrated optical signal amplifier and an integrated generator of entangled photons with previously inaccessible ultra-fast broad-range control of operating regimes. These systems would have applications in future optical communication networks, ensuring fast, secure and energy efficient data transmission.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100009
Funder
Australian Research Council
Funding Amount
$455,000.00
Summary
Ultra-precision cutting and polishing machines for fabricating high-Q crystalline resonators. The proposed facility will equip Australian researchers with the capability to machine and polish optical crystalline materials down to atomic-level smoothness. The availability of this technology will enable the fabrication of ultra-sensitive metrological sensors, state-of-the-art photonic components, and quantum devices. Precision metrology is an integral component of many industries and it underpins ....Ultra-precision cutting and polishing machines for fabricating high-Q crystalline resonators. The proposed facility will equip Australian researchers with the capability to machine and polish optical crystalline materials down to atomic-level smoothness. The availability of this technology will enable the fabrication of ultra-sensitive metrological sensors, state-of-the-art photonic components, and quantum devices. Precision metrology is an integral component of many industries and it underpins a modern, technically advanced society. With this facility Australian researchers will lead the world in the fabrication of optical crystalline devices for a broad range of industrial and research applications.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
Discovery Early Career Researcher Award - Grant ID: DE160100167
Funder
Australian Research Council
Funding Amount
$373,536.00
Summary
Electro-optical quantum transport in semiconductor microcavities. The project seeks to expand fundamental knowledge in the new area of exciton-polariton physics which has a range of practical applications. This project plans to connect fundamental study in quantum physics with application-oriented research involving elements of quantum engineering. The project plans to investigate the transport of exciton polaritons – hybrid light–matter particles that can propagate nearly as fast as light and a ....Electro-optical quantum transport in semiconductor microcavities. The project seeks to expand fundamental knowledge in the new area of exciton-polariton physics which has a range of practical applications. This project plans to connect fundamental study in quantum physics with application-oriented research involving elements of quantum engineering. The project plans to investigate the transport of exciton polaritons – hybrid light–matter particles that can propagate nearly as fast as light and are very robust. It may allow us to better understand fundamental features in physics and optics, and to model and construct optoelectronic devices such as quantum switchers, filters, transistors and detectors. The theory that the project aims to develop could be employed in different spheres of modern physics, chemistry, and medicine and biology.Read moreRead less
ARC Centre of Excellence for Quantum Computation and Communication Technology. This Centre aims to implement quantum processors able to run error corrected algorithms and transfer information across networks with absolute security. Australian researchers have established global leadership in quantum information, an innovative technology which could transform all industries dependent on computational power. This Centre has developed technologies for manipulating matter and light at the level of i ....ARC Centre of Excellence for Quantum Computation and Communication Technology. This Centre aims to implement quantum processors able to run error corrected algorithms and transfer information across networks with absolute security. Australian researchers have established global leadership in quantum information, an innovative technology which could transform all industries dependent on computational power. This Centre has developed technologies for manipulating matter and light at the level of individual atoms and photons, with the highest fidelity, longest coherence time qubits in the solid state, the world’s longest-lived quantum memory, and the ability to run small-scale algorithms on photonic qubits. The new technology is expected to provide a strategic advantage in a world where information and information security are of paramount importance.Read moreRead less
ARC Centre of Excellence for Quantum Computation and Communication Technology. The Centre for Quantum Computation and Communication Technology will coordinate a large team of Australian researchers in an intensive mission. Our aim is to integrate a radical and uniquely powerful Australian computing technology with an ultra-secure Australian communications technology. Our success will drive global productivity gains in information processing and ensure that Australians own the pivotal underpinnin ....ARC Centre of Excellence for Quantum Computation and Communication Technology. The Centre for Quantum Computation and Communication Technology will coordinate a large team of Australian researchers in an intensive mission. Our aim is to integrate a radical and uniquely powerful Australian computing technology with an ultra-secure Australian communications technology. Our success will drive global productivity gains in information processing and ensure that Australians own the pivotal underpinning intellectual property. Our technologies will provide Australia and its allies with the world's most secure information networks. Our discoveries will place Australia unequivocally at the very forefront of global research in quantum physicsRead moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100037
Funder
Australian Research Council
Funding Amount
$223,039.00
Summary
Cryogenic quantum microscope facility. This project aims to establish a cryogenic, quantum microscope facility in Australia. Quantum sensing is a new field that harnesses the properties of individual quantum systems to realise new types of detection and imaging with unprecedented combination of sensitivity and spatial resolution. The potential innovations, applications and benefits to society are far reaching across the full spectrum of scientific and engineering activity, from the development o ....Cryogenic quantum microscope facility. This project aims to establish a cryogenic, quantum microscope facility in Australia. Quantum sensing is a new field that harnesses the properties of individual quantum systems to realise new types of detection and imaging with unprecedented combination of sensitivity and spatial resolution. The potential innovations, applications and benefits to society are far reaching across the full spectrum of scientific and engineering activity, from the development of atomic-scale imaging of protein structures for drug discovery, to the study of chemical, physical, and biological processes and materials for advanced technology and manufacturing.Read moreRead less