| related words |
| qutrits |
| wiesner |
| crepeau |
| harrow |
| supplementary |
| bandyopadhyay |
| subscripts |
| neighbours |
| useless |
| multiqubit |
| exchanging |
| flipping |
| disentangle |
| ancillary |
| wooters |
| roychowdhury |
| execute |
| cabello |
| jonathan |
| hewlett |
|
| related documents |
| Multi-particle and High-dimension Controlled Order Rearrangement
Encryption Protocols [0701091v1] |
| Synthesis of Ternary Quantum Logic Circuits by Decomposition [0511041v1] |
| Quantum Information processing by NMR: Preparation of pseudopure states
and implementation of unitary operations in a single-qutrit system [0307240v1] |
| Dimension-Independent Positive-Partial-Transpose Probability Ratios [0505093v1] |
| Quantum protocols for anonymous voting and surveying [0504161v2] |
| Unambiguous discrimination of special sets of multipartite states using
local measurements and classical communication [0501174v1] |
| Benchmarking quantum control methods on a 12-qubit system [0603248v1] |
| On the equivalence of the CH and CHSH inequalities for two three-level
systems [0212117v3] |
| Description of Quantum Entanglement with Nilpotent Polynomials [0508234v2] |
| Programmable Quantum Networks with Pure States [0503230v1] |
| Bell's inequalities in the tomographic representation [0607059v2] |
| Stationary entanglement and nonlocality of two qubits or qutrits
collectively interacting with the thermal environment: The role of Bell
singlet state [0505216v2] |
| Spin-1/2 particles moving on a 2D lattice with nearest-neighbor
interactions can realize an autonomous quantum computer [0506270v2] |
| Experimental Quantum Cryptography with Qutrits [0511163v2] |
| Engineering of multi-dimensional entangled states of photon pairs using
hyper-entanglement [0502003v1] |
| Quantum non-locality in two three-level systems [0111143v2] |
| Realization of four-state qudits using biphotons [0601091v2] |
| On the Phase Covariant Quantum Cloning [0208080v2] |
| Compatibility of subsystem states [0407227v3] |
| Quantum Computation using Decoherence-Free States of the Physical
Operator Algebra [9910005v3] |
|
| related topics |
| {alice, bob, state} |
| {qubit, qubits, gate} |
| {bell, inequality, local} |
| {entanglement, phys, rev} |
| {spin, pulse, spins} |
| {states, state, optimal} |
| {key, protocol, security} |
| {state, states, entangled} |
| {state, phys, rev} |
| {state, algorithm, problem} |
| {phase, path, phys} |
| {photon, photons, single} |
| {group, space, representation} |
| {let, theorem, proof} |
| {operator, operators, space} |
| {cos, sin, state} |
| {time, decoherence, evolution} |
| {error, code, errors} |
| {information, entropy, channel} |
| {wave, scattering, interference} |
|