Reprint
Quantum Information and Computation
Edited by
April 2023
220 pages
- ISBN978-3-0365-7202-4 (Hardback)
- ISBN978-3-0365-7203-1 (PDF)
This book is a reprint of the Special Issue Quantum Information and Computation that was published in
Chemistry & Materials Science
Computer Science & Mathematics
Physical Sciences
Summary
Quantum information and quantum computing are very rapidly developing research directions in recent years. This reprint introduces some of the latest developments in quantum theory, including basic physical theories such as quantum entanglement, and quantum information processing; and applications such as quantum secret key allocation, and several types of quantum algorithms. This reprint is suitable for some researchers or students to read.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
maximally entangled state; positive partial transpose; moment; genuine entanglement; entanglement measure; complete monogamy; strong incoherence; weak coherence; orthonormal basis; mutually unbiased basis; quantum correlation; nonlocality; Bell inequality; quantum network; quantum computation; secure delegated computation; distributed architecture; incompatibility criterion; quantum channels; quantum measurements; Fisher information; Belavkin–Staszewski relative entropy; geometric Rényi relative entropy; conditional entropy; mutual information; classical-quantum setting; quantum key distribution; GHZ entangled state; measurement-device-independent; multi-user; system identification; linear systems of equations; quantum algorithm; time complexity; quantum error-correcting codes; k-uniform states; orthogonal array; orthogonal partition; Bell inequality; self-testing; symmetric states; device independent; quantumness in ensembles; quantum channel; quantum Markovianity; non-commutativity; quantum correlation swapping; werner-like state; measurement-induced disturbance (MID); ameliorated MID (AMID); rate compatible; LDPC; continuous-variable quantum key distribution; wide range of SNRs regime; n/a