sameAs
P185
Search for Gravitational Waves Associated with γ -ray Bursts Detected by the Interplanetary NetworkLaser actuation of cantilevers for picometre amplitude dynamic force microscopy.Quantum metrology for gravitational wave astronomy.Multimode laser cooling and ultra-high sensitivity force sensing with nanowires.Programmable multimode quantum networks.A mirrorless spinwave resonator.Surpassing the no-cloning limit with a heralded hybrid linear amplifier for coherent states.Quantum entanglement of angular momentum states with quantum numbers up to 10,010Gradient echo quantum memory in warm atomic vapor.A scalable, self-analyzing digital locking system for use on quantum optics experiments.Compact flexible multi-pass rotary delay line using spinning micro-machined mirrors.Squeezed quadrature fluctuations in a gravitational wave detector using squeezed light.Tripartite quantum state sharing.Fabrication of ultrahigh-precision hemispherical mirrors for quantum-optics applications.Violation of Bell's Inequality Using Continuous Variable Measurements.Dual-rail optical gradient echo memory.Configurable unitary transformations and linear logic gates using quantum memories.Nonlinear entanglement and its application to generating cat States.Scattering-free optical levitation of a cavity mirror.Coherent optical pulse sequencer for quantum applications.Multimodal properties and dynamics of gradient echo quantum memory.Harmonic Entanglement with Second-Order NonlinearityContinuous-variable quantum-state sharing via quantum disentanglementContinuous-variable spatial entanglement for bright optical beamsQuantum Cryptography Without SwitchingQuantum state sharingSqueezing in the Audio Gravitational-Wave Detection BandExperimental investigation of continuous-variable quantum teleportationExperimental Investigation of Criteria for Continuous Variable EntanglementStokes-operator-squeezed continuous-variable polarization statesUnity gain and nonunity gain quantum teleportationExperimental Demonstration of Continuous Variable Polarization EntanglementPolarization Squeezing of Continuous Variable Stokes ParametersQUANTUM SQUEEZING IN ADVANCED GRAVITATIONAL WAVE DETECTORSExperimental Demonstration of a Squeezing-Enhanced Power-Recycled Michelson Interferometer for Gravitational Wave DetectionQuantum-optical process tomography using coherent statesObserving the operational significance of discord consumptionQuantum State Sharing with Continuous VariablesContinuous variable quantum teleportation and quantum secret sharingOverarching framework between Gaussian quantum discord and Gaussian quantum illumination
P50
P823
Q21706456-D5CB9402-5979-4157-97AC-3112067AC126Q30435181-67E9C9D6-929A-44FC-9D56-E95D88E7D0D5Q33748457-0EE38290-401D-44F6-9092-D1F9F07A178CQ35223955-BEFF0BBA-53F0-43D5-9E9C-1E1563C7684DQ36204255-DF7238BC-B312-4697-B936-CB47A4BEAE88Q36360739-C1D7FDF3-441B-48BF-BDED-6A4A824516D9Q37393183-9683C447-BAE1-4A1D-8BAB-5368FC1D0E30Q37473657-E81C5832-80EB-4D71-AFFB-0E6789912809Q37707311-E875306A-828F-490D-9642-74768727C39FQ39993177-E324F870-1CC0-44B7-AA43-20C8F88B57CCQ41517184-0340789D-68E8-49C1-8AD6-EA38A0592934Q44415621-8869ED82-0185-4BE5-A75C-068611F90952Q49248070-766F86D9-E5E0-47E3-8572-611F7517B592Q50006775-8C0FD92F-BC5A-460B-8F49-0208A1E3A552Q50044966-3EA3F1B1-5FAD-4A53-9BBF-A2076F1BE089Q50706265-264884A9-A5D7-49F2-845E-13001578BA65Q51051690-E855C6DC-8C80-42DA-A8D8-86A80F731D5FQ51580779-CDDEE5D1-D8D8-4896-8549-D907CCBC0C88Q51593719-7E859EE0-B757-4345-BCFB-79CC0EC4903AQ51890552-56BB477F-FB90-4CE2-9C69-B75FE089759AQ51959654-3BF2299D-8985-4EE6-A307-BDDAF729618AQ57703460-EF305E87-B9D8-42C2-BC6D-C0BEF5492213Q57703463-BB530BA7-4D73-408B-BB84-484764FEEB8AQ57703466-2CBB448D-988D-4E03-8AD9-0B7908B8F8A1Q57703481-41C29E7A-DDA2-484A-8953-7D754E3DC4A1Q57703484-21D5BF23-2390-46E4-8149-4814853A684FQ57703491-56019AAE-253A-48A8-80FB-32D6AF2A98FDQ57703500-47839844-4146-4AC8-8E60-2C32C0709286Q57703504-5F7D004E-9042-4954-8793-BDBCAE50B051Q57703513-35BC2DA5-0BA4-46F3-8B48-41E0C27420F0Q57703520-EEA3DBDA-B75E-4858-9B9F-E4D50D0A7077Q57703524-49723C4D-7B85-4204-99FD-1CF0E72A6D01Q57703526-3B93B449-BDEE-4067-A15C-EAEB813C4A90Q58472191-099D2957-7954-4900-B660-DEEAC21DFBC6Q58472195-1F20DCF4-FEAE-443D-A5A4-866D276D268CQ59434869-E3DD0837-581B-43E7-922D-FB2BAA42F4DEQ59439848-2A3923D7-052D-471E-9007-35CDAABD4981Q59441111-10ADE812-6D67-45C0-95BB-BA330AD04391Q59441163-A4A88D76-0E53-42F4-86EB-0546DB75245CQ59446017-4416B18A-BD1E-40F0-AA0D-0E8A6B4CCAED
P50
description
Austraalia füüsik
@et
Australian physicist
@en
Australian physicist
@en-ca
Australian physicist
@en-gb
aŭstralia fizikisto
@eo
fisiceoir Astrálach
@ga
fisiciste australian
@lfn
fisico australiano
@it
fisikari australiarra
@eu
fizician australian
@ro
name
Ping Koy Lam
@ast
Ping Koy Lam
@ca
Ping Koy Lam
@de
Ping Koy Lam
@en
Ping Koy Lam
@es
Ping Koy Lam
@fr
Ping Koy Lam
@ga
Ping Koy Lam
@nl
Ping Koy Lam
@sl
Ping Koy Lam
@sq
type
label
Ping Koy Lam
@ast
Ping Koy Lam
@ca
Ping Koy Lam
@de
Ping Koy Lam
@en
Ping Koy Lam
@es
Ping Koy Lam
@fr
Ping Koy Lam
@ga
Ping Koy Lam
@nl
Ping Koy Lam
@sl
Ping Koy Lam
@sq
prefLabel
Ping Koy Lam
@ast
Ping Koy Lam
@ca
Ping Koy Lam
@de
Ping Koy Lam
@en
Ping Koy Lam
@es
Ping Koy Lam
@fr
Ping Koy Lam
@ga
Ping Koy Lam
@nl
Ping Koy Lam
@sl
Ping Koy Lam
@sq
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P496
0000-0002-4421-601X