Error message
- Deprecated function: TYPO3\PharStreamWrapper\Manager::initialize(): Implicitly marking parameter $resolver as nullable is deprecated, the explicit nullable type must be used instead in include_once() (line 19 of includes/file.phar.inc).
- Deprecated function: TYPO3\PharStreamWrapper\Manager::initialize(): Implicitly marking parameter $collection as nullable is deprecated, the explicit nullable type must be used instead in include_once() (line 19 of includes/file.phar.inc).
- Deprecated function: TYPO3\PharStreamWrapper\Manager::__construct(): Implicitly marking parameter $resolver as nullable is deprecated, the explicit nullable type must be used instead in include_once() (line 19 of includes/file.phar.inc).
- Deprecated function: TYPO3\PharStreamWrapper\Manager::__construct(): Implicitly marking parameter $collection as nullable is deprecated, the explicit nullable type must be used instead in include_once() (line 19 of includes/file.phar.inc).
Topological quantum computing, Decoherence and adiabatic quantum computation, Topological entangled states, Quantum error corrections, Quantum crypthography
The theory and practice of quantum computing have both developed dramatically in recent years. At the top, advances in theory and algorithms have taught us much about the nature of computational complexity and broadened the range of potential uses of quantum computers. At the bottom, physicists are investigating a breathtaking array of potential qubit storage and quantum gate technologies.
We study fundamental aspects of quantum theory through the analysis of relevant information processing tasks and algorithms. We are interested in the formulation of physical principles in terms of information processing possibilities.
When the particles that make up a material are strongly-correlated, we theorists get a run for our money: qualitatively new behaviour emerges and the whole is a lot more than the sum of its parts. The theoretical description of matter in such challenging circumstances benefits from very close interaction with experimentalists. For this reason the University of Kent has set up, as part of the SEPnet collaboration, a small outpost of theorists at the ISIS Facility in the Rutherford Appleton Laboratory.
The group is involved in research on a wide spectrum of topics in quantum information science, including quantum communication, quantum cryptography, and theory of entanglement. The QIC group also actively works in the recently developing field at the interface of quantum many-body physics and quantum information. Other interests include realizable quantum computers in ultra-cold gases, and in quantum optical systems, and foundations of quantum mechanics.
Institute of Theoretical Physics and Astrophysics is a strong center of theoretical physics. It is especially known for the achievements of its employees in the field of quantum optics and quantum information theory (profs. Michal Horodecki, Ryszard Horodecki, Marek Zukowski) mathematical physics (profs. Wladyslaw Adam Majewski, Robert Alicki) and others with considerable achievements.
Pages
