Our research program in Quantum Information Theory explores the full spectrum of questions from the foundational, such as 'How does complex behaviour emerge from simple quantum systems? Below we detail some of the main projects being undertaken in our group. What exotic properties of quantum mechanics give quantum computers their power?
How do we scale up that weirdness from the size of an atom to the size of a mainframe? The team focuses on adapting concepts from control engineering for the manipulation of quantum devices and the development of new classes of quantum simulators for chemistry and materials science. Their focus is on the interface between classical and quantum systems, which will be critical for quantum machines to be scaled up to useful devices.
The research has led to collaboration with Harvard University to further develop the technology. EQuS is building sophisticated machines that harness the quantum world for practical applications. Led by CEO Professor Michael Biercuk, Q-Ctrl is taking research on quantum control out of the laboratory and developing commercial software that can be used to reduce errors in quantum systems. University home. Current students.
Staff intranet. Type to search Search. All content. Faculty of Science.
Science courses Science courses Study areas. Undergraduate courses. Postgraduate courses. Postgraduate research. Bridging courses. Accredited programs.
Student experience. Schools School of Chemistry. School of Geosciences. School of History and Philosophy of Science. School of Life and Environmental Sciences. School of Mathematics and Statistics.
Quantum Computing | Wiley Online Books
School of Physics. School of Psychology. Sydney School of Veterinary Science. Our research Research areas. Research impact. Research centres institutes and groups.
Research facilities. Recently, the field of quantum computation and information has been developing through a fusion of results from various research fields in theoretical and practical areas. It contains fundamental areas, quantum query complexity, quantum statistical inference, quantum cloning, quantum entanglement, additivity.
It treats three types of quantum security system, quantum public key cryptography, quantum key distribution, and quantum steganography. A photonic system is highlighted for the realization of quantum information processing. Hiroshi Imai was born in at Kobe, Japan.
Quantum Optics and Quantum Information
He obtained B. Watson Research Center in His research interests include quantum information science, algorithmics, computational geometry, and optimization. Masahito Hayashi was born in Japan in He received the B. His research interests include quantum information theory and quantum statistical inference.