Top 10 similar words or synonyms for flux_qubits

transmon    0.654716

smuon    0.632938

ferroelasticity    0.627493

waveform_generators    0.622246

qcd_calculations    0.609224

monolithic_ics    0.601690

flux_qubit    0.599326

microanalyzer    0.598145

quantum_cryptography_quantum    0.597264

subpicosecond    0.596144

Top 30 analogous words or synonyms for flux_qubits

Article Example
Superconducting tunnel junction Superconducting quantum computing utilizes STJ-based circuits, including charge qubits, flux qubits and phase qubits.
Quantum metamaterial and without Josephson junctions are being actively investigated. Recently a superconducting quantum metamaterial prototype based on flux qubits was realized.
Superconducting quantum computing The three superconducting qubit archetypes are the phase, charge and flux qubits, though many hybridizations exist (Fluxonium, Transmon, Xmon, Quantronium). For any qubit implementation, the logical quantum states formula_1
Flux qubit Like all quantum bits, flux qubits require a suitably sensitive probe coupled to it in order to measure its state after a computation has been carried out. Such quantum probes should introduce as little back-action as possible onto the qubit during measurement. Ideally they should be decoupled during computation and then turned "on" for a short time during read-out. Read-out probes for flux qubits work by interacting with one of the qubit's macroscopic variables, such as the circulating current, the flux within the loop or the macroscopic phase of the superconductor. This interaction then changes some variable of the read-out probe which can be measured using conventional low-noise electronics. The read-out probe is typically the technology aspect that separates the research of different University groups working on flux qubits.
Circuit quantum electrodynamics Other more recent examples for qubits used in circuit QED are so called transmon qubits (more charge noise insensitive compared to the Cooper-pair box) and flux qubits (the state is given by the direction of a supercurrent in a superconducting loop intersected by Josephson junctions).