Project information
Quantum information processing
- Project Identification
- GA201/01/0413
- Project Period
- 1/2001 - 1/2003
- Investor / Pogramme / Project type
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Czech Science Foundation
- Standard Projects
- MU Faculty or unit
- Faculty of Informatics
Quantum information processing (QIP) research is currently one of the hottest areas of science. Problems in this area range from deeply philosophical to very challenging experimental and implementation ones. The aim of the project is both to perform a sy nthesis of the current basic problems, methods and results in this area and to pursue specific investigations in several of the fundamental areas of QIP. Namely, in the area of quantum automata, multipartite entanglement, synthesis of quantum objects, un iversal quantum operators (cloners, entanglers), and on generalizations of quantum secret sharing. Both of the goals are closely related and a natural continuation of the previous successful work of the project participants.
Publications
Total number of publications: 30
2003
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Quantum Entanglement as a New Information Processing Resource
New Generation Computing, year: 2003, volume: 21, edition: 4
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Saturation of Coffman-Cundu-Wotters inequality via quantum homogenization
Journal of Optics B, year: 2003, volume: -, edition: 5
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Simulation of exponential decay on simple quantum circuits: a case study
Journal of Optics B, year: 2003, volume: -, edition: 5
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Special Issue on Quantum Computing in the International Journal of Foundations of Computer Science
Year: 2003, number of pages: 194 s.
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Succintness in quantum information processing
Proceedings of DCFS Conference, year: 2003
2002
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Quantum Entanglement as a New Quantum Informational Processing Resource
New Generations of Computing, year: 2002, volume: 2002, edition: 1
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Quantum information processing
Year: 2002, number of pages: 37 s.
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Quantum Information Processing
Proceedings of the Annual Database Conference DATACON, year: 2002
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Security of the Private Quantum Channel
Journal of Modern Optics, year: 2002, volume: 2003, edition: 1
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Squeezed States: Basic Principles
Lecture Notes in Physics, year: 2002, volume: 2002, edition: 1