about
Quantum metamaterials: Electromagnetic waves in a Josephson qubit lineResonance Fluorescence of a Single Artificial AtomToroidal qubits: naturally-decoupled quiet artificial atoms.Spatially resolved single photon detection with a quantum sensor array.Four-qubit device with mixed couplings.Ultimate on-chip quantum amplifier.Tunable coupling of superconducting qubits.Evidence for entangled states of two coupled flux qubits.Degenerate ground state in a mesoscopic YBa2Cu3O(7-x) grain boundary Josephson junction.Tunable refraction in a two-dimensional quantum-state metamaterialTransmission through a two dimensional quantum metamaterialFeedback-controlled adiabatic quantum computationHarmonic mixing in two coupled qubits: Quantum synchronization via ac drivesSqueezing as the source of inefficiency in the quantum Otto cycleTwo-qubit parametric amplifier: Large amplification of weak signalsNoise-spectroscopy of multiqubit systems: Determining all their parameters by applying an external classical noiseQuantum metamaterials: Electromagnetic waves in Josephson qubit linesHow to test the “quantumness†of a quantum computer?Some implications of superconducting quantum interference to the application of master equations in engineering quantum technologiesPropagation of fluctuations in the quantum Ising modelQuantum engineering of superconducting structures: Principles, promise and problemsState-dependent photon blockade via quantum-reservoir engineeringQuantum metamaterial without local controlWigner function description of a qubit-oscillator systemHeat cost of parametric generation of microwave squeezed statesQuantum EngineeringElectromagnetically Induced Transparency on a Single Artificial AtomEngineering silicon-based photonic crystal cavities for NV-center quantum information processingNoise-enhanced performance of adiabatic quantum computing by lifting degeneraciesWhy quantum engineering?Noise-induced quantum coherence and persistent Rabi oscillations in a Josephson flux qubitSingle-artificial-atom lasing using a voltage-biased superconducting charge qubitControlled Generation of Squeezed States of Microwave Radiation in a Superconducting Resonant CircuitDistinguishing quantum from classical oscillations in a driven phase qubitNONLINEAR RESPONSE AND OBSERVABLE SIGNATURES OF EQUILIBRIUM ENTANGLEMENTPseudo-Rabi oscillations in superconducting flux qubits in the classical regimeA Characterization of Global EntanglementAdiabatic Quantum Computation With Flux Qubits, First Experimental ResultsControllable Coupling of Superconducting Flux QubitsModeling an Adiabatic Quantum Computer via an Exact Map to a Gas of Particles
P50
Q21708387-648DC3F4-3FB3-4F68-9A7E-C7B22D141EEAQ34098322-4CD9A1DD-F6DB-4EF8-AEC8-E3410C31316DQ36320591-7FE5FE3E-93C4-45E7-9168-DED8E28A1730Q42827733-CD5C4E4E-E869-48F1-AA71-3E7620E8D8E3Q51268306-CBCDEBBE-0615-4114-BC82-6E1B2E9093BEQ51557997-C0F12E5D-7FCE-42FB-A7CF-E6B226670D37Q52950206-1A7BF872-791E-4BF0-8E69-BED050A7AF09Q52966436-2175CE90-71FE-4CF2-8F70-1A19E4FC7A32Q55034849-97C34601-FBA5-428D-81E7-843FDA54D0BCQ58310386-1BF20196-85B6-4306-BF69-CB25858D1A5BQ58310424-D1DD8AB9-E026-4498-A4CD-BF98796DD8A3Q58310430-2EE9E301-BFF0-4BCC-AB36-0C2B70FB2918Q58310435-D6F1E6F0-DDEF-447B-8F16-B80943975BC0Q58310448-FA6BFBCF-B509-4586-A078-1799FFDA82A5Q58310451-AADDD524-B858-4136-9D5B-B1B12FB5284BQ58310503-51C266B7-2943-4A86-BC66-56FA1D71765EQ58310520-D371982C-B7CE-4030-B33E-E309A5227C72Q58560941-C44EBF80-A863-4D46-9F3D-3EF68DD8E0A6Q59362439-D2ED3A96-A05B-4AEE-9723-A8BA45EDD10EQ59423422-7B081808-4A7A-48BE-9AED-338024E41369Q59423424-04053B09-C533-471F-85DA-A606735BA6EFQ59423428-8C6EA7C7-DB22-4B0A-A848-BCAAFBA8FDABQ59423430-5582D8E8-30EF-417D-8657-278A7CC10DAFQ59423433-89D8284E-4C8D-4AAD-969B-5D186250D9EDQ59423436-6C6FEE28-BFBE-45D9-869F-E3332BD1E933Q59423441-C6ED58C9-4C3A-4CEA-8686-82B0814E2358Q59423443-57D008BD-335F-4D0F-A2AA-08AD11784F7EQ59423444-E2237FD4-485F-45C3-AB83-A58B22D111F2Q59423448-9944D493-0C09-4AB5-BB9C-E0F8B231278DQ59423450-16699A81-63C8-438E-A583-16FA5C561E6FQ59423452-C0C31C5A-88F3-4AAD-8B3C-EAB46D6B85D9Q59423453-492CD017-AAE3-4DC9-BCB7-B19173FD4BF5Q59423454-61FC7BD1-3E13-4839-B172-544D3997F7ADQ59423456-CDA3EDC6-0403-4B5E-9C5B-BC8F488C9D8FQ59423457-A07815C3-15C4-4E14-9AE9-09F55533D9CCQ59423460-E878C47E-803A-4BDF-8619-875ABDD4AF17Q59423464-EDFEAF15-65B3-41BE-BF69-A945AA06F2B5Q59423466-AF7DDD8A-08F5-4B33-80D8-89366B730FB8Q59423468-1C07B70C-3874-4848-B5D1-E056127BCCBAQ59423469-9CF376FC-79EC-4A77-A814-5D01DB16C510
P50
description
Brits onderzoeker
@nl
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Alexandre Zagoskin
@ast
Alexandre Zagoskin
@de
Alexandre Zagoskin
@en
Alexandre Zagoskin
@es
Alexandre Zagoskin
@fr
Alexandre Zagoskin
@nl
Alexandre Zagoskin
@sl
Александр Загоскин
@ru
type
label
Alexandre Zagoskin
@ast
Alexandre Zagoskin
@de
Alexandre Zagoskin
@en
Alexandre Zagoskin
@es
Alexandre Zagoskin
@fr
Alexandre Zagoskin
@nl
Alexandre Zagoskin
@sl
Александр Загоскин
@ru
altLabel
A. M. Zagoskin
@en
Aleksandr Sagoskin
@en
Alexander Sagoskin
@de
prefLabel
Alexandre Zagoskin
@ast
Alexandre Zagoskin
@de
Alexandre Zagoskin
@en
Alexandre Zagoskin
@es
Alexandre Zagoskin
@fr
Alexandre Zagoskin
@nl
Alexandre Zagoskin
@sl
Александр Загоскин
@ru
P1006
P214
P244
P1006
P1053
B-2904-2011
P106
P1153
7004144244
P19
P21
P214
P244
P2798
P31
P3829
P496
0000-0002-1189-5116
P569
1950-01-01T00:00:00Z
P6634
P7859
lccn-n97105519