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Three-waveform bidirectional pumping of single electrons with a silicon quantum dot.Tunable electromagnetic environment for superconducting quantum bits.Quantum-circuit refrigeratorQuantum-limited heat conduction over macroscopic distances.Nanoscale broadband transmission lines for spin qubit control.Flux-tunable phase shifter for microwaves.High-fidelity readout and control of a nuclear spin qubit in silicon.Coherent control of a single ²⁹Si nuclear spin qubit.Single-shot readout and relaxation of singlet and triplet states in exchange-coupled 31P electron spins in silicon.A single-atom electron spin qubit in silicon.Flux-tunable heat sink for quantum electric circuits.Observation of microwave absorption and emission from incoherent electron tunneling through a normal-metal-insulator-superconductor junction.Electron counting in a silicon single-electron pumpAn Accurate Single-Electron Pump Based on a Highly Tunable Silicon Quantum DotSingle-shot readout of an electron spin in siliconTransport Spectroscopy of Single Phosphorus Donors in a Silicon Nanoscale TransistorOverlapping-Gate Architecture for Silicon Hall Bar MOSFET Devices in the Low Electron Density and High Magnetic Field RegimeMicrowave Admittance of Gold-Palladium Nanowires with Proximity-Induced SuperconductivityTheory of quantum-circuit refrigeration by photon-assisted electron tunnelingDetection of Zeptojoule Microwave Pulses Using Electrothermal Feedback in Proximity-Induced Josephson JunctionsOperation of a silicon quantum processor unit cell above one kelvinSingle-spin qubits in isotopically enriched silicon at low magnetic field
P50
Q30370162-E25DBD77-F9F0-4FD1-B3BB-21585CA46A16Q36924092-A2D37ECA-03B8-4867-A203-BC2F298BC84DQ38686689-4E57F7C1-9C9B-4C80-90A8-A673EEDE4C35Q42568305-3AD1FAF0-BA0F-48E8-AFC2-B30250AE2840Q45398754-42F1894B-45E5-41FF-AF1E-23E94F3A19E1Q47117178-C75A6573-1EB1-43FD-84ED-2A79945B2125Q51532063-0A940AE1-F572-4581-90FE-10214A63A49AQ51582671-2552141E-4872-4A10-B42F-A6DF9A4D5E89Q51587709-9F1B11A2-818A-4093-A637-BE1B2836BED4Q51600462-3DD162FC-7691-4976-9013-4131D812A781Q52573342-2A70D5D7-94C9-413B-A6D9-4B0F9417B991Q52676421-9F17FFE6-E78E-4FC9-B75F-B6BC2369ACBCQ58813420-BA50AC8E-AAD4-486E-BC79-2629911A76C7Q58813423-ECF7C99C-FC6D-43AF-80B1-19009AC03A83Q59064826-56C88F4B-A049-4055-9B5D-861640B2D008Q59422954-DC6A443E-BA07-43DF-8493-D4E2B0237847Q59423893-33A51D49-B02B-4734-9BBD-38DA1A4899DBQ62036785-9F3F65E0-773A-40A1-B223-FE0088C7E75EQ62036789-B2F36B7E-7C4B-4EEB-9DA5-6CEF727CE916Q62036793-080B6501-F689-4AE7-997E-9E07DAD3CF81Q90871764-E6E1F363-4843-4BCF-B54E-42D2613D3619Q91656345-6F210802-5686-4DCA-8386-CB0011B98666
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Kuan Y Tan
@ast
Kuan Y Tan
@es
Kuan Y Tan
@sl
Kuan Yen Tan
@en
Kuan Yen Tan
@nl
type
label
Kuan Y Tan
@ast
Kuan Y Tan
@es
Kuan Y Tan
@sl
Kuan Yen Tan
@en
Kuan Yen Tan
@nl
altLabel
K. Y. Tan
@en
Kuan Y. Tan
@en
prefLabel
Kuan Y Tan
@ast
Kuan Y Tan
@es
Kuan Y Tan
@sl
Kuan Yen Tan
@en
Kuan Yen Tan
@nl
P1053
G-4475-2010
P106
P31
P3829
P496
0000-0001-5168-4914