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Quantum Information Processing Using Quantum Dot Spins and Cavity QEDResonantly driven CNOT gate for electron spins.Physics. Splitting spin states on a chip.Superconducting resonators as beam splitters for linear-optics quantum computation.Nuclear state preparation via Landau-Zener-Stückelberg transitions in double quantum dots.Spin qubits in graphene quantum dotsInterference of heavy holes in an Aharonov-Bohm ringShot noise and spin-orbit coherent control of entangled and spin-polarized electronsDatta–Das transistor with enhanced spin controlLower Bound for Electron Spin Entanglement from Beam Splitter Current CorrelationsQ57404350Spin-orbit coupling and time-reversal symmetry in quantum gatesBiexcitons in coupled quantum dots as a source of entangled photonsCancellation of Spin-Orbit Effects in Quantum Gates Based on the Exchange Coupling in Quantum DotsQuantum computation and the production of entangled photons using coupled quantum dotsRashba Spin-Orbit Interaction and Shot Noise for Spin-Polarized and Entangled ElectronsCoherent dynamics and manipulation of electron spins in nanostructuresNoise of a quantum dot system in the cotunneling regimeQ57404390Noise of entangled electrons: Bunching and antibunchingSpin interactions and switching in vertically tunnel-coupled quantum dotsSpintronics and Quantum Dots for Quantum Computing and Quantum CommunicationCoupled quantum dots as quantum gatesPhysical optimization of quantum error correction circuitsDecoherence in solid-state qubitsQuantum physics: A spin soloEffective theory of monolayer TMDC double quantum dotsFew-second-long correlation times in a quantum dot nuclear spin bath probed by frequency-comb nuclear magnetic resonance spectroscopyBlockade at a different levelNoisy neighbours under controlAcoustic phonons and spin relaxation in graphene nanoribbonsA quantum memory intrinsic to single nitrogen–vacancy centres in diamondQuantum nondemolition measurements of a qubit coupled to a harmonic oscillatorBound states and magnetic field induced valley splitting in gate-tunable graphene quantum dotsNon-Markovian qubit dynamics in the presence of1/fnoisePositively spin coherentUniversal quantum computing with correlated spin-charge statesConnect the dotsQuantum Computing with Solid State SystemsUltra-long-distance interaction between spin qubits
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Q27335706-BE0D9078-070C-46A5-A1CE-CCDE84C02A86Q47271421-8AE0979E-A85C-4A72-9F36-27A844394905Q51560435-3F12FA30-9CAE-4971-AB2F-F7541735FB03Q51611136-A7BA0B1E-A691-48D4-8D03-BE3966ACAEB3Q53057480-0653D2CA-0C2B-4802-AF80-F2E714A1B0A4Q56156231-19583387-E6A6-4404-8EF9-B57A0F4DCE22Q57404209-A13DB105-565C-4609-A3E0-27C6135B58EDQ57404310-33851122-03FC-4791-B91C-4459D96684C3Q57404338-B47AE4FE-21A5-41F6-B459-32E5D398B94AQ57404347-D1A19871-E226-4F4E-99F5-16404FAE70DEQ57404350-A8954765-214F-4442-BAB2-0BD672DE322CQ57404357-CE4135C9-A5C9-45D5-8BF1-3E4529C8C828Q57404359-87EF9F7F-F4DC-45B2-B7D6-80A68FEA6354Q57404362-0D457EEA-CDB6-45BF-BC93-FD3691B6D505Q57404366-BBBF73C6-D446-4546-926B-5C425BFB962CQ57404368-5A7B1A92-3C8D-48D6-A5BC-199FCC3B6CBCQ57404374-02602729-2CA2-4FDD-ABDF-CE3B14D1B0B7Q57404381-2317FD64-9E79-4199-B6C6-C2D6D16BCA5CQ57404390-B28A77CC-86D4-4669-B6EE-2483DFFEC365Q57404392-53D2D541-5121-4A4E-82D2-D9F7FE883457Q57404399-00206360-4943-4F7E-8ACB-702DC2D673E1Q57404404-C642D753-751F-4437-8DDF-BFBB371252FBQ57404407-D6A6F46B-81F8-4D86-9A88-8A5C8C3D70FDQ57404413-FE1BE48C-6552-4160-8502-96BB155D0974Q58185800-D364CEFE-5AC6-48B0-B887-BBBC195E989AQ59066463-9D7AC1B6-B1B6-44E2-B36C-F8D0BEBD190EQ59427971-8B165E20-83EB-410B-B270-CD5B88DA6782Q59427976-227A3DE7-60CF-4931-B4A8-716249B4A6ADQ59427980-47E070A8-701E-48E7-A259-C2F24D6D6B38Q59427983-64C2F9A8-4DD2-4B4F-ADBB-0F9B25B74ABBQ59427987-CF7F2C73-45E2-4B42-B387-1929D0E9C82BQ59427990-8AA56146-C679-4C6D-8AE1-0D223022C1EAQ59427998-A1E5418E-FB4E-49E1-91F8-A74772EFCECAQ59428001-A8B9171A-5FAA-4513-AD65-2432E0AE655AQ59428003-6A459288-21C1-4397-8009-A24C5C98C268Q59428010-98A47209-9125-4A7B-B374-2E96A2C5DA1BQ59428013-D7893C1B-9951-49CD-B35A-A06798380406Q59428015-FCA52E28-121B-4174-8475-CB7FAAC8C436Q59428019-57C5FD9F-B667-4F07-8C7B-B5F89889D1BDQ59428022-0AE38CC1-CE16-49C1-8E92-7677AA5DA1C2
P50
description
onderzoeker
@nl
physicist at University of Konstanz
@en
name
G Burkard
@nl
G Burkard
@sl
Guido Burkard
@en
Guido Burkard
@es
type
label
G Burkard
@nl
G Burkard
@sl
Guido Burkard
@en
Guido Burkard
@es
prefLabel
G Burkard
@nl
G Burkard
@sl
Guido Burkard
@en
Guido Burkard
@es
P214
4632148037708488350002
P31
P496
0000-0001-9053-2200
P735
P7859
viaf-4632148037708488350002