An addressable quantum dot qubit with fault-tolerant control-fidelity.
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Electrical current through individual pairs of phosphorus donor atoms and silicon dangling bondsSilicon Metal-oxide-semiconductor Quantum Dots for Single-electron Pumping.Electrically controlling single-spin qubits in a continuous microwave fieldExperimental fault-tolerant universal quantum gates with solid-state spins under ambient conditions.Noise filtering of composite pulses for singlet-triplet qubitsSingle-electron Spin Resonance in a Quadruple Quantum Dot.Gate fidelity and coherence of an electron spin in an Si/SiGe quantum dot with micromagnetQuantum-circuit refrigeratorA CMOS silicon spin qubit.Isotopically enhanced triple-quantum-dot qubit.Coherent long-distance displacement of individual electron spins.Morphology control of exciton fine structure in polar and nonpolar zinc sulfide nanorods.Silicon quantum processor with robust long-distance qubit couplings.Passivation and characterization of charge defects in ambipolar silicon quantum dotsA fault-tolerant addressable spin qubit in a natural silicon quantum dot.A surface code quantum computer in siliconFan-out Estimation in Spin-based Quantum Computer Scale-up.Silicon CMOS architecture for a spin-based quantum computer.Coherent coupling between a quantum dot and a donor in silicon.A quantum-dot spin qubit with coherence limited by charge noise and fidelity higher than 99.9.Resonantly driven CNOT gate for electron spins.Quantum simulation of a Fermi-Hubbard model using a semiconductor quantum dot array.Fast spin information transfer between distant quantum dots using individual electrons.A dressed spin qubit in silicon.Electrically driven spin qubit based on valley mixing.Optical Control of the Resonant Dipole-Dipole Interaction between Rydberg Atoms.What Randomized Benchmarking Actually Measures.High-Resolution Valley Spectroscopy of Si Quantum Dots.Hole Spin Resonance and Spin-Orbit Coupling in a Silicon Metal-Oxide-Semiconductor Field-Effect Transistor.Randomized Benchmarking of Barrier versus Tilt Control of a Singlet-Triplet Qubit.Charge-Insensitive Single-Atom Spin-Orbit Qubit in Silicon.High-Fidelity Rapid Initialization and Read-Out of an Electron Spin via the Single Donor D(-) Charge State.Single-spin CCD.Palladium gates for reproducible quantum dots in silicon.Quantum Dephasing in a Gated GaAs Triple Quantum Dot due to Nonergodic Noise.Reduced Sensitivity to Charge Noise in Semiconductor Spin Qubits via Symmetric Operation.A silicon metal-oxide-semiconductor electron spin-orbit qubit.Coherent transfer of electron spin correlations assisted by dephasing noise.A crossbar network for silicon quantum dot qubits.Toward high-fidelity coherent electron spin transport in a GaAs double quantum dot
P2860
Q35891954-B0E280D3-D2B1-4958-A257-7FF97DF7F04BQ35982018-9A93D04C-A338-42C5-87E2-A1101DCCDD74Q36268187-B2282023-3612-461A-8D31-DB20F747F7DFQ36361019-BF3FBDF3-A373-4728-A443-1B5C5C076F03Q37072940-A691E3DE-846B-4ED4-B0CE-D5AA6B3CF05AQ37195797-EDCE3A09-9D11-4338-8BBE-5990BBAC43E5Q37369530-11A18719-B5CD-425D-AE44-E67A2251D4CAQ38686689-5A9A118E-8517-47D3-B0EA-E20CA93D2AE9Q38791253-3BA29FA4-25F0-4B76-824E-1BAE3A6732BCQ38939337-2A2A820E-6150-40DD-ACC7-2E2C4A13B74DQ41328552-13929E11-069F-4EF4-A6B8-99386CB04B37Q41517591-77CAC8C7-DC78-4E9F-B502-BBD8249A3689Q41635554-ED5E0927-249C-456A-AEFD-E464ECEB4A23Q42358378-70F0C510-5AB5-40D5-B9B5-C86B46A35381Q42360691-E6296B22-2543-405B-9A38-13E177740625Q42623134-32C38CFF-4D3B-4975-A357-70245F8AE41BQ42657302-69FF0DF7-97C5-476F-A6FE-243121EE39B7Q47099128-07DDD64E-5D48-4E1E-BEB3-AFFC1A497F9AQ47141844-97933D65-41C3-474A-8B55-AE5CAFDCA0CBQ47236569-ADCE3B4C-935D-4723-ABA7-ED2F8CB1A8A7Q47271421-2DB85559-3D6D-43F5-B9F6-DBC92405A73CQ47850391-E2179321-DD54-44D2-A518-39EE5518E6CBQ48219061-EEB479C6-5478-402C-9AAB-16E8E5A3452FQ48264965-FF86A6A5-E521-4396-9A22-4DF6AD477857Q49317866-98A9F8FA-BD82-4108-86E7-847AFFD13B6DQ49825956-67017E38-8EB1-4F7B-9796-49C881F3F54EQ50004934-5ECC05E1-081E-431D-83AA-F2D41BB503EAQ50012889-0100D688-462D-4AB7-ABE4-DD0FF4090DECQ50096429-332C5287-3C5B-4094-86A2-77314AD003ECQ50593036-E6BAE113-4A25-4524-936F-6C6725736BA7Q51459434-B2181F58-2E6B-4C69-AF56-5775E91FA9C1Q51575777-62E494D4-1239-4BB6-80A6-14EBE0BF0739Q51577905-A1DB770E-3CB9-420B-9523-335703AA398EQ52597800-755D9E49-5FE5-44D9-9A3A-DC767649365BQ53179008-7CB2C1EC-CCF7-4F39-90C1-7FAA2EBCD9F2Q53201944-2A8AAFD0-5749-4573-8FED-247FA88C0F0DQ55003753-46BEF892-B045-49DE-9EF6-96BABB194BDAQ55154088-EBE73D12-7E46-4C7D-BF6D-4A116D4D9D73Q55457886-C1592D43-87EE-4374-B4DD-92D143BBBB4AQ57155921-718243F8-F523-428D-9C13-E41C55D16D95
P2860
An addressable quantum dot qubit with fault-tolerant control-fidelity.
description
2014 nî lūn-bûn
@nan
2014年の論文
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2014年学术文章
@wuu
2014年学术文章
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2014年学术文章
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2014年学术文章
@zh-hans
2014年学术文章
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name
An addressable quantum dot qubit with fault-tolerant control-fidelity.
@en
An addressable quantum dot qubit with fault-tolerant control-fidelity.
@nl
type
label
An addressable quantum dot qubit with fault-tolerant control-fidelity.
@en
An addressable quantum dot qubit with fault-tolerant control-fidelity.
@nl
prefLabel
An addressable quantum dot qubit with fault-tolerant control-fidelity.
@en
An addressable quantum dot qubit with fault-tolerant control-fidelity.
@nl
P2093
P50
P356
P1476
An addressable quantum dot qubit with fault-tolerant control-fidelity
@en
P2093
A W Leenstra
B de Ronde
J C C Hwang
M Veldhorst
P2888
P304
P356
10.1038/NNANO.2014.216
P407
P577
2014-10-12T00:00:00Z