Quantum Teleportation and Entanglement: A Hybrid Approach to Optical Quantum Information Processing
Unique in that it is jointly written by an experimentalist and a theorist, this monograph presents universal quantum computation based on quantum teleportation as an elementary subroutine and multi-party entanglement as a universal resource. Optical approaches to measurement-based quantum computation are also described, including schemes for quantum error correction, with most of the experiments carried out by the authors themselves.
Ranging from the theoretical background to the details of the experimental realization, the book describes results and advances in the field, backed by numerous illustrations of the authors' experimental setups.
Aimed at researchers, physicists, and graduate and PhD students in physics, theoretical quantum optics, quantum mechanics, and quantum information.
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Alice and Bob Alice’s amplitude ancilla arbitrary basis beam splitter Bell measurement bipartite Bob’s channel Chapter circuit classical Clifford cluster computation CNOT gate coherent state input correlations corresponding density operator detectors displacement eigenstates eigenvalues encoding entanglement distillation entanglement witnesses EPR beams experiment experimental results experimental setup feedforward fidelity four-mode frequency Gaussian graph half beam splitter Hamiltonian Heisenberg homodyne detection hybrid implementation infinite squeezing interaction Lett linear optics matrix measurement results mode modulation noise level non-Gaussian nonlinear obtain offline optical parametric optical parametric oscillators oscillator output parameters phase space photon photon number Phys POVM protocol quadrature quantum computation quantum error correction quantum information processing quantum optical quantum teleportation qubit qumode realized resource rotation scheme Section 1.8 shown in Figure signal single photon single-mode single-qubit squeezed vacuum stabilizer symplectic telecloning tripartite entanglement two-mode squeezed two-qubit unitary vacuum noise variances vector wave plate Wigner function