Quantum Computers, Algorithms, and ChaosGiulio Casati, Dima L. Shepelyansky, Peter Zoller, Giuliano Benenti |
Contents
GRASSL Encoding and decoding quantum errorcorrecting codes | 33 |
Progress with linear optics | 57 |
25 | 64 |
Copyright | |
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Common terms and phrases
amplitude applied atoms basis beam splitter bi-partite billiard binary chaotic circuit classical computation coherent consider Cooper pair correlation corresponding coupling decay decoherence defined density matrix dephasing described detector dynamics efficiently eigenstates electron encoding energy entanglement equivalent evolution exponential fidelity Fourier transform frequency Gaussian graph G Hamiltonian Hilbert space implemented initial interaction iterations laser lattice Lett linear optics maximal mode momentum noise number of qubits obtained operators oscillations pair parameters particles Pauli perturbation phase space photon Phys Physics polynomial potential probability protocol pulse quantum algorithm quantum chaos quantum computer quantum dot quantum error correction quantum Fourier transform quantum gates quantum information quantum register quantum systems regime Schmidt measure Schmidt rank shown in fig simulation spin stabilizer subsect subspace teleportation trajectories trap tunnel two-qubit unitary vector vertex vertices voltage wave function weighted graph Wigner function