Nonlinear quantum science with superconducting circuit quantum-electrodynamics. Circuit quantum electrodynamics has rapidly emerged in recent years as a new field of experimental quantum science, with applications to precision measurement, nanomechanical transducers and quantum information processing. We will design and demonstrate new experimental devices, grounded in a long-standing expertise in quantum optics, and enabled by a new low temperature laboratory under development at The Universit ....Nonlinear quantum science with superconducting circuit quantum-electrodynamics. Circuit quantum electrodynamics has rapidly emerged in recent years as a new field of experimental quantum science, with applications to precision measurement, nanomechanical transducers and quantum information processing. We will design and demonstrate new experimental devices, grounded in a long-standing expertise in quantum optics, and enabled by a new low temperature laboratory under development at The University of Queensland. This project will deliver a new technological capability for Australia.Read moreRead less
Quantum-Assisted Sensing. Modern physics has been very successful at developing incredibly precise theoretical descriptions of nature. Can exquisitely accurate models of the interaction between light and matter, to push sensing and measurement far beyond the current state-of-the art, be exploited? This project aims to address this question, focussing on three domains of measurement: temperature, time and power. Improving sensors and measurement has been the cornerstone of new physical discoverie ....Quantum-Assisted Sensing. Modern physics has been very successful at developing incredibly precise theoretical descriptions of nature. Can exquisitely accurate models of the interaction between light and matter, to push sensing and measurement far beyond the current state-of-the art, be exploited? This project aims to address this question, focussing on three domains of measurement: temperature, time and power. Improving sensors and measurement has been the cornerstone of new physical discoveries, with applications from radio-astronomy to quantum information and navigation. This project aims to build the theoretical foundations for world-beating thermometers, clocks, and photon counters, and to guide experiments in Australia and abroad to bring them into reality.Read moreRead less
Simulating complexity: ultrastrong interactions in superconducting circuits. This project aims to explore effects of strong interactions on phases of light and matter in complex quantum systems, by mimicking them with surrogates called quantum simulators. The project expects to open up new research directions by building a novel versatile simulator platform from nanoscale superconducting electronic circuits in which all elements are flexibly engineered and precisely controlled. Expected outcomes ....Simulating complexity: ultrastrong interactions in superconducting circuits. This project aims to explore effects of strong interactions on phases of light and matter in complex quantum systems, by mimicking them with surrogates called quantum simulators. The project expects to open up new research directions by building a novel versatile simulator platform from nanoscale superconducting electronic circuits in which all elements are flexibly engineered and precisely controlled. Expected outcomes from the project will include better understanding of complex materials and a certifiable scaling-up pathway towards simulation complexity, future hi-tech manufacturing; and enhanced research capacity in the new interdisciplinary field of quantum engineering. This should help to position Australia as a centre for hi-tech quantum industry leading to both social and economic benefits.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100155
Funder
Australian Research Council
Funding Amount
$2,815,901.00
Summary
A molecular quantum simulator. This project will create a molecular quantum simulator to address outstanding questions in the fields of superconductivity, superfluidity, quantum magnetism, topological quantum matter, and quantum non-equilibrium physics. This project will enable Australia to compete with other nations’ efforts to build quantum technologies that are enabled by cold atom and cold molecule physics for future needs in simulation, computing, sensing and metrology.
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
Simulating quantum states of matter: connecting theory to applications in science and technology. Quantum phenomena are ubiquitous and critical to the functioning of many modern technological devices, for example sensors and computer chips used in mobile phones. Although great strides have been made in recent decades in describing quantum phenomena theoretically, computational modelling is an essential ingredient to describe real experiments and devices. This project aims to develop the next gen ....Simulating quantum states of matter: connecting theory to applications in science and technology. Quantum phenomena are ubiquitous and critical to the functioning of many modern technological devices, for example sensors and computer chips used in mobile phones. Although great strides have been made in recent decades in describing quantum phenomena theoretically, computational modelling is an essential ingredient to describe real experiments and devices. This project aims to develop the next generation of computational tools aimed at two major themes: characterising topological states of matter, and modelling non-equilibrium phenomena. These tools will be invaluable for the design and modelling of quantum devices and novel materials and will enable the development of the next generation of technological devices.Read moreRead less