| related words |
| summarise |
| targets |
| clever |
| arguably |
| invention |
| transistors |
| untouched |
| technologically |
| assemble |
| disadvantages |
| industrial |
| explores |
| extraneous |
| stipulated |
| initialize |
| sequentially |
| summarised |
| priority |
| helsinki |
| challenged |
|
| related documents |
| SECOQC White Paper on Quantum Key Distribution and Cryptography [0701168v1] |
| Quantum Teleportation of Optical Quantum Gates [0208022v2] |
| Comment on "How the No-Cloning Theorem Got its Name" [0205195v1] |
| Quantum probabilities as Bayesian probabilities [0106133v2] |
| Testing Bell's inequality in constantly coupled Josephson circuits by
effective single-qubit operations [0408089v3] |
| Mimicking Time Evolution within a Quantum Ground State: Ground-State
Quantum Computation, Cloning, and Teleportation [0312083v1] |
| Ultrafast Pulse Shaping Approaches to Quantum Computing [0312192v1] |
| Single Photons on Pseudo-Demand from Stored Parametric Down-Conversion [0205103v1] |
| Measures of entanglement in multipartite bound entangled states [0308031v2] |
| The Mutually Unbiased Bases Revisited [0605090v1] |
| Probability in the Everett World: Comments on Wallace and Greaves [0604191v1] |
| "Spectral Implementation" for creating a labeled pseudo-pure state and
the Bernstein-Vazirani's algorithm in a four-qubit nuclear magnetic resonance
quantum processor [0202008v2] |
| Quantum Mechanics as Quantum Information (and only a little more) [0205039v1] |
| Deterministic secure communication protocol without using entanglement [0304141v3] |
| Storage of quantum dynamics on quantum states: a quasi-perfect
programmable quantum gate [0012067v1] |
| Evolving Quantum Oracles with Hybrid Quantum-inspired Evolutionary
Algorithm [0610105v1] |
| Robust quantum gates and a bus architecture for quantum computing with
rare-earth-ion doped crystals [0301036v1] |
| Locality in Nonsequential Quantum Operations [0510072v1] |
| Method for implementation of universal quantum logic gates in a scalable
Ising spin quantum computer [0212070v1] |
| On the von Neumann capacity of noisy quantum channels [9609024v3] |
|
| related topics |
| {qubit, qubits, gate} |
| {theory, mechanics, state} |
| {key, protocol, security} |
| {spin, pulse, spins} |
| {bell, inequality, local} |
| {energy, gaussian, time} |
| {algorithm, log, probability} |
| {trap, ion, state} |
| {time, systems, information} |
| {state, states, entangled} |
| {particle, mechanics, theory} |
| {let, theorem, proof} |
| {state, states, coherent} |
| {information, entropy, channel} |
| {photon, photons, single} |
| {states, state, optimal} |
| {field, particle, equation} |
| {state, phys, rev} |
| {state, algorithm, problem} |
| {energy, state, states} |
|