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**Quantum information science** is an area of study based on the idea that information science depends on quantum effects in physics. It includes theoretical issues in computational models as well as more experimental topics in quantum physics including what can and cannot be done with quantum information. The term **quantum information theory** is sometimes used, but it fails to encompass experimental research in the area and can be confused with a subfield of quantum information science that studies the processing of quantum information.

Subfields include:

- Quantum computing: Studies of how and whether a quantum computer can be built and the algorithms that harness its power (see quantum algorithm)
- Quantum error correction
- Quantum information theory
- Quantum complexity theory
- Quantum cryptography and its generalization, quantum communication
- Quantum communication complexity
- Quantum entanglement, as seen from an information-theoretic point of view
- Quantum dense coding
- Quantum teleportation is a well-known quantum information processing operation, which can be used to move any arbitrary quantum state from one particle (at one location) to another.

## See also

- Entanglement-assisted classical capacity
- No-communication theorem
- Quantum capacity
- Quantum communication channel
- Quantum decision tree complexity

## References

- Nielsen, Michael A.; Chuang, Isaac L. (June 2012).
*Quantum Computation and Quantum Information*(10th anniversary ed.). Cambridge: Cambridge University Press. ISBN 9780511992773. OCLC 700706156.

## External links

- Quantiki – quantum information science portal and wiki.
- ERA-Pilot QIST WP1 European roadmap on Quantum Information Processing and Communication
- QIIC – Quantum Information, Imperial College London.
- QIP – Quantum Information Group, University of Leeds. The quantum information group at the University of Leeds is engaged in researching a wide spectrum of aspects of quantum information. This ranges from algorithms, quantum computation, to physical implementations of information processing and fundamental issues in quantum mechanics. Also contains some basic tutorials for the lay audience.
- mathQI Research Group on Mathematics and Quantum Information.
- CQIST Center for Quantum Information Science & Technology at the University of Southern California
- CQuIC Center for Quantum Information and Control, including theoretical and experimental groups from University of New Mexico, University of Arizona.
- CQT Centre for Quantum Technologies at the National University of Singapore
- CQC2T Centre for Quantum Computation and Communication Technology