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Discovery Early Career Researcher Award - Grant ID: DE240100590
Funder
Australian Research Council
Funding Amount
$457,500.00
Summary
On-chip microwave generation and detection with Josephson photonics . The ability to generate and detect a single photon, a single particle of light, is a key requirement of many quantum technologies from quantum sensors, to quantum computing and quantum communications protocols. This project aims to develop next-generation microwave photon sources and detectors that are based on superconducting effects. It will lead to new knowledge in how to control, entangle and detect single microwave photon ....On-chip microwave generation and detection with Josephson photonics . The ability to generate and detect a single photon, a single particle of light, is a key requirement of many quantum technologies from quantum sensors, to quantum computing and quantum communications protocols. This project aims to develop next-generation microwave photon sources and detectors that are based on superconducting effects. It will lead to new knowledge in how to control, entangle and detect single microwave photons in order to make devices that are simpler to build and operate and more efficient than state-of-the-art technologies. This has direct economic benefits in developing new sensors for biological, chemical and astronomical processes and will advance Australia's efforts to build a scalable quantum computer. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100144
Funder
Australian Research Council
Funding Amount
$415,154.00
Summary
Quantum-enabled super-resolution imaging. The aim is to design large scale, quantum-enabled imaging systems to boost the resolution of state-of-the-art instruments by three to five orders of magnitude. Using the toolbox of quantum information and quantum optics, the project expects to generate novel methods for 2D and 3D imaging, and precision measurements that can reach fundamental limits. Imaging is critical in much of today's research. The unparalleled resolution can benefit a broad range of ....Quantum-enabled super-resolution imaging. The aim is to design large scale, quantum-enabled imaging systems to boost the resolution of state-of-the-art instruments by three to five orders of magnitude. Using the toolbox of quantum information and quantum optics, the project expects to generate novel methods for 2D and 3D imaging, and precision measurements that can reach fundamental limits. Imaging is critical in much of today's research. The unparalleled resolution can benefit a broad range of scientific fields, the medical and the defence sector by resolving objects otherwise impossible. This project will strengthen Australia’s position as a world leader in quantum technologies by presenting solutions to overcome critical bottlenecks in imaging methods in the optical domain.Read moreRead less