about
Universal Optical Amplification without NonlinearityContinuous-variable quantum computing on encrypted dataEfficient coupling of a single diamond color center to propagating plasmonic gap modes.Coupling of single quantum emitters to plasmons propagating on mechanically etched wires.Quantum enhanced feedback cooling of a mechanical oscillator using nonclassical lightErratum: Quantum enhanced feedback cooling of a mechanical oscillator using nonclassical lightNarrow-bandwidth sensing of high-frequency fields with continuous dynamical decoupling.Quantum-enhanced micromechanical displacement sensitivity.Gaussian error correction of quantum states in a correlated noisy channel.Measurement-Induced Macroscopic Superposition States in Cavity Optomechanics.Integrated source of broadband quadrature squeezed light.Generation and controlled routing of single plasmons on a chip.Demonstration of a quantum nondemolition sum gate.Feasibility and resolution limits of opto-magnetic imaging of neural network activity in brain slices using color centers in diamond.Quantum optical coherence can survive photon losses using a continuous-variable quantum erasure-correcting codeQuantum Light from a Whispering-Gallery-Mode Disk ResonatorLow-Threshold Optical Parametric Oscillations in a Whispering Gallery Mode ResonatorSqueezing-enhanced measurement sensitivity in a cavity optomechanical systemFeedback-enhanced sensitivity in optomechanics: Surpassing the parametric instability barrierSqueezed-State Purification with Linear Optics and FeedforwardExperimental purification of coherent statesHybrid Long-Distance Entanglement Distribution ProtocolSimulations and experiments on polarization squeezing in optical fiberHybrid discrete- and continuous-variable quantum information30 years of squeezed light generationExperimental Demonstration of Continuous Variable Quantum ErasingContinuous variable quantum key distribution with modulated entangled statesQuantum Reconstruction of an Intense Polarization Squeezed Optical StateQuantum enhanced optomechanical magnetometrySqueezing more from a quantum nondemolition measurementHigh-rate measurement-device-independent quantum cryptographyQuantum cryptography with an ideal local relayComplete elimination of information leakage in continuous-variable quantum communication channelsContributed Review: Camera-limits for wide-field magnetic resonance imaging with a nitrogen-vacancy spin sensorDeterministic phase measurements exhibiting super-sensitivity and super-resolutionMutual information of optical communication in phase-conjugating Gaussian channelsNitrogen-vacancy ensemble magnetometry based on pump absorptionPrecision temperature sensing in the presence of magnetic field noise and vice-versa using nitrogen-vacancy centers in diamondTomography of a displacement photon counter for discrimination of single-rail optical qubitsOptimised frequency modulation for continuous-wave optical magnetic resonance sensing using nitrogen-vacancy ensembles
P50
Q27348049-199D4062-7BBA-4C56-A118-275CBD556ED3Q30832546-921E1F12-09FB-4D7A-B39F-8AB3D544A886Q34588746-02E3749E-1A8D-4BD0-A8BE-A5C93DDDD6E9Q35002887-D8CDC857-5CA2-4472-881F-85CC6CC3EB42Q36206520-A566B6B2-3728-4BBE-BE8C-1C88EFC66912Q41897895-6412AC52-9B3D-4596-AE7A-10971CDEBAE1Q42380583-5F8C81EF-6FCB-43EB-862F-9F43B4BA4E0AQ45330952-1F40D3C7-8D86-4459-9E7B-D5787D3999E1Q48913084-6CAD12CF-FB90-41F9-806E-CE5D6F2C6F83Q50571344-1BF80E6D-DC05-4CE2-804E-CC4FA5DF45EBQ51492785-6EFDFBC4-2FD0-46EA-842D-383F2EC65411Q51523002-CD962940-F935-4519-9009-1F47C0B07134Q51618638-F88F9A04-C645-47F4-929C-0C56852566DDQ52655337-2BB5D817-2D8C-4D41-BC92-5EB85E0B76F2Q56443854-3FADF570-A631-44B2-A14C-FEB7173F67E8Q56814864-7F51D20A-C398-4F34-8191-DF12CB66309DQ56814868-40D17542-452E-41A3-9ADE-9AAD251718B0Q57703286-BCAE98B6-03AE-4F3F-9A79-FA5AD0E61C70Q57703356-5C7B747E-8DC8-4D1C-A8AD-095C9C38431CQ57703461-AFD12598-9D3C-4C32-BA64-EC0DE5323393Q59448665-D57375AF-89D5-4993-9D47-CA1212C4E9C5Q59474250-EBDF5695-181F-4758-818D-3CB518941E89Q59476147-2B382E92-A662-4875-BACB-4877C31F7636Q59713669-15551F1F-8D2D-47EA-80F6-F5203E9DC3CAQ60316720-B6646D25-2E6A-4DCF-9953-1FF45C634C0DQ61157961-CF1BE73A-3CAC-43C9-89F0-84EF6D0E3A03Q61207280-A75E1008-7A7A-40E1-B4EB-A4D4DC30C8F8Q61878629-1BC0186C-9DB3-4C1E-A3D7-C5470FA76DF3Q62046225-272E8769-F655-4171-9334-F28127AF03F1Q62109890-0B5FCA2C-07BE-4E67-970B-CFB54CC2C263Q62113666-B4DD72FB-6917-49BF-A7D5-15145080B3DCQ62113669-6604BAE0-ED56-4522-9211-3842DC391929Q62122059-9DEA4D5C-0F58-4823-8B22-6277BBD810EBQ62122061-D1DBCA98-EBAD-4D88-97D4-E8217BA17DC8Q62122062-E6E16F8C-05A0-4110-A098-604A848BDA11Q62122063-C4427787-D3CC-4EAF-B035-4C42813EB70EQ62122064-035B37B6-318C-416E-BCFA-48058A60B6E6Q62122066-8AF20586-FD76-4DDF-94C9-180FF2989251Q62122067-427B06A6-CD71-4ED9-A212-D4139D1F69F4Q62122070-9C31E95A-3571-4B42-AA3A-0AADBDF8D4F4
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Ulrik L Andersen
@ast
Ulrik L Andersen
@en
Ulrik L Andersen
@es
Ulrik L Andersen
@nl
Ulrik L Andersen
@sl
type
label
Ulrik L Andersen
@ast
Ulrik L Andersen
@en
Ulrik L Andersen
@es
Ulrik L Andersen
@nl
Ulrik L Andersen
@sl
prefLabel
Ulrik L Andersen
@ast
Ulrik L Andersen
@en
Ulrik L Andersen
@es
Ulrik L Andersen
@nl
Ulrik L Andersen
@sl
P108
P1053
A-5965-2011
P106
P108
P21
P31
P3829
P496
0000-0002-1990-7687
P569
2000-01-01T00:00:00Z