Problems And Solutions In Quantum Computing And Quantum Information (3rd Edition)World Scientific Publishing Company, 16 sept. 2011 - 424 pages Quantum computing and quantum information are two of the fastest growing and most exciting research fields in physics. Entanglement, teleportation and the possibility of using the non-local behavior of quantum mechanics to factor integers in random polynomial time have also added to this new interest. This book supplies a huge collection of problems in quantum computing and quantum information together with their detailed solutions, which will prove to be invaluable to students as well as researchers in these fields. All the important concepts and topics such as quantum gates and quantum circuits, product Hilbert spaces, entanglement and entanglement measures, deportation, Bell states, Bell inequality, Schmidt decomposition, quantum Fourier transform, magic gate, von Neumann entropy, quantum cryptography, quantum error corrections, number states and Bose operators, coherent states, squeezed states, Gaussian states, POVM measurement, quantum optics networks, beam splitter, phase shifter and Kerr Hamilton operator are included. The topics range in difficulty from elementary to advanced. Almost all problems are solved in detail and most of the problems are self-contained. |
Autres éditions - Tout afficher
Problems and Solutions in Quantum Computing and Quantum Information Willi-Hans Steeb,Yorick Hardy Aucun aperçu disponible - 2012 |
Expressions et termes fréquents
acting Alice apply arbitrary Assume beam Bell Calculate called cloning coherent commutator complex condition Consequently Consider corresponding cosh(r cout creation defined denotes density matrix density operator described determined differential Discuss eigenstates eigenvalues entangled equal equation error example Express field follows function gate given Hamilton operator hermitian Hilbert space identity operator inequality input inverse linear operator log2 measurement mode n x n normalized eigenvectors Note obtain Obviously orthonormal basis output pair parameter particle Pauli spin matrices phase photon polarization positive probability Problem projection pure quantum qubit relation respectively result satisfy Show single Solution space H squeezed standard basis Symbolic trace unit unitary matrix unitary operator vector write written yields