High-Fidelity Teleportation beyond the No-Cloning Limit and Entanglement Swapping for Continuous VariablesGeneration of a squeezed vacuum resonant on a rubidium D1 line with periodically poled KTiOPO4Generation of squeezed light with a monolithic optical parametric oscillator: simultaneous achievement of phase matching and cavity resonance by temperature control.Teleportation of nonclassical wave packets of light.Deterministic quantum teleportation of photonic quantum bits by a hybrid technique.Experimental proof of nonlocal wavefunction collapse for a single particle using homodyne measurements.Synchronization of optical photons for quantum information processing.Quantum-enhanced optical-phase tracking.Quantum-limited mirror-motion estimation.Universal Quantum Computing with Measurement-Induced Continuous-Variable Gate Sequence in a Loop-Based Architecture.Experimental demonstration of quantum teleportation of broadband squeezing.Demonstration of quantum telecloning of optical coherent states.Real-Time Quadrature Measurement of a Single-Photon Wave Packet with Continuous Temporal-Mode Matching.Demonstration of a controlled-phase gate for continuous-variable one-way quantum computation.Demonstration of unconditional one-way quantum computations for continuous variables.Demonstration of a quantum teleportation network for continuous variables.Demonstration of a quantum nondemolition sum gate.Experimental creation of a fully inseparable tripartite continuous-variable state.Entanglement swapping between discrete and continuous variables.Noiseless Conditional Teleportation of a Single Photon.Photon subtracted squeezed states generated with periodically poled KTiOPO_4Generation of Large-Amplitude Coherent-State Superposition via Ancilla-Assisted Photon SubtractionUltra-large-scale continuous-variable cluster states multiplexed in the time domainGeneration of a Cat State in an Optical SidebandContinuous-variable entanglement on a chipPhotonic quantum technologiesSqueezing-enhanced adaptive optical phase estimationHybrid discrete- and continuous-variable quantum informationCreation, Storage, and On-Demand Release of Optical Quantum States with a Negative Wigner FunctionMitigation of radiation-pressure-induced angular instability of a Fabry–Perot cavity consisting of suspended mirrorsNew method to measure the angular antispring effect in a Fabry–Perot cavity with remote excitation using radiation pressureExperimental realization of a dynamic squeezing gateGeneral implementation of arbitrary nonlinear quadrature phase gatesSpectrum analysis with quantum dynamical systemsDemonstration of deterministic and high fidelity squeezing of quantum informationExperimental demonstration of macroscopic quantum coherence in Gaussian statesContinuous-variable teleportation of a negative Wigner functionDirect observation of phase-sensitive Hong-Ou-Mandel interferenceImplementation of a quantum cubic gate by an adaptive non-Gaussian measurementNonlocal quantum gate on quantum continuous variables with minimal resources
P50
Q27452093-167B1356-EA0E-4677-A485-FC1899E92D53Q28251300-9DED51C0-6517-4904-AB18-0D5EC2FC481EQ33716275-6A7086C5-FA73-4A15-A1E1-F0CC0C26FF83Q34178443-EE670A7A-BB9A-400A-9998-355312EB4FE3Q34364862-DFC39B93-2AA3-47FE-92EA-D513CEE6B2D0Q34468267-37F4E484-E315-49D7-8FAA-62A7B669CAA7Q42470224-DB9FE30F-797F-4E77-9913-575849615D95Q45289976-20E575F7-7F43-439F-B59B-F51D987CCDDDQ48705738-7C43746D-0F96-474B-BF9D-75E31192C5CDQ50005200-7022E4F6-86A4-4DE4-8E99-921A0AA79547Q50891714-B85AEDC8-F117-4F76-AF1B-84B2917BE15CQ51228680-17AED093-08EA-4F9A-9BB5-EED0E89AE5B9Q51279956-3747786E-D253-4004-B880-DFCD28D1FEC1Q51604349-49B848E8-E9FA-4887-A472-8C61CF654180Q51606951-82583C95-180C-42CD-85A6-70E43572D31DQ51611209-B65C0EE0-1655-4FD6-B4C5-921A5F321BE4Q51618638-1658E9E6-D595-4900-82D2-6107CFAA9E4FQ51816744-CA9C4FCF-17ED-467B-942A-54BA0AFF84EDQ53280261-59B02F64-48ED-4328-8E2A-AAAB88865AF5Q53364068-665B8E42-C3F9-477C-832F-BB6690D8BBF8Q56699933-D8F8FAAA-704A-425A-BC5F-7B0CE7AA4E1DQ56699935-C3B852F0-0297-4A7C-BB57-02697E22BC68Q57636012-90E942AF-67EB-4655-87F3-9393B143BEFEQ58582940-58F7935F-9CD1-4563-8C49-2BCB8E6DB1A5Q59436509-46CB1677-C879-4A16-B4F2-87BD6CB644CAQ59436729-3FA856FD-4D82-482E-AFEA-4FAA3402417BQ59438320-1FA38363-7BCB-4F0B-A325-E8659DEBE40DQ59713669-70570950-AE1B-4D26-93D2-0941E107EB1AQ59714040-8DC1D4EE-C499-4A99-8F4B-6E79A8DC65DEQ60013297-AC2397DA-6E21-41A6-82CA-68DB73DE7785Q60013302-F965FA80-D8F8-4FC6-9A97-2E63A93F1335Q60033647-C65B7725-B1CD-4B3B-AF7B-8AC0C0BCE18EQ61157477-1CB84EC4-F253-4F42-82BE-3A0040798228Q62117038-9A9B7282-5E24-4CE9-8AAC-4704EDE2431DQ62122138-0B854131-0318-49AD-9031-F958749318BFQ62122140-980837EC-E049-4837-9031-3FB4C46EA634Q62575214-B4ADDEA0-110E-498D-8EC5-45379E7FEB89Q62581737-F5A46700-8D7F-4A20-B961-B0ED800073D6Q62581744-3ECAF2F8-91E3-4A77-9BD0-1080C82E6722Q62581748-D628A3BF-B9E2-4B90-8ED2-62EA2DEEC027
P50
description
Jaapani füüsik
@et
Japanese physicist
@en
Japanese physicist
@en-ca
Japanese physicist
@en-gb
fisiceoir Seapánach
@ga
fizician japonez
@ro
fizikan japonez
@sq
físic japonès
@ca
físico japonés
@es
físico xaponés
@gl
name
Akira Furusawa
@ast
Akira Furusawa
@en
Akira Furusawa
@es
Akira Furusawa
@fr
Фурусава, Акира
@ru
古澤明
@ja
古澤明
@zh
type
label
Akira Furusawa
@ast
Akira Furusawa
@en
Akira Furusawa
@es
Akira Furusawa
@fr
Фурусава, Акира
@ru
古澤明
@ja
古澤明
@zh
altLabel
Акира Фурусава
@ru
古沢明
@ja
prefLabel
Akira Furusawa
@ast
Akira Furusawa
@en
Akira Furusawa
@es
Akira Furusawa
@fr
Фурусава, Акира
@ru
古澤明
@ja
古澤明
@zh
P1006
P214
P227
P244
P269
P349
P1006
P106
P1153
7005319657
P1412
P1559
古澤明
@ja
P1814
P1960
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