about
Random bits, true and unbiased, from atmospheric turbulenceIntegrated photonic quantum gates for polarization qubits.Free-space optical channel estimation for physical layer security.Integrated optical modulator manipulating the polarization and rotation handedness of Orbital Angular Momentum states.Experimental realization of equiangular three-state quantum key distribution.Extending Wheeler's delayed-choice experiment to space.Role of beam waist in Laguerre-Gauss expansion of vortex beams.On the properties of circular beams: normalization, Laguerre-Gauss expansion, and free-space divergence.Source-Device-Independent Ultrafast Quantum Random Number Generation.Strong Measurements Give a Better Direct Measurement of the Quantum Wave Function.Impact of turbulence in long range quantum and classical communications.Polarization entangled state measurement on a chip.Active one-way quantum computation with two-photon four-qubit cluster states.Interference at the Single Photon Level Along Satellite-Ground Channels.Adaptive real time selection for quantum key distribution in lossy and turbulent free-space channelsFemtosecond laser waveguide writing for integrated quantum opticsTwo-Particle Bosonic-Fermionic Quantum Walk via Integrated PhotonicsPolarization entangled states measurement on a chipExperimental Quantum Networking Protocols via Four-Qubit Hyperentangled Dicke StatesExperimental study of non-classicality indicators and extremal quantum correlations in two-qubit statesExtremal quantum correlations: Experimental study with two-qubit statesFree-Space Quantum Key Distribution by Rotation-Invariant Twisted PhotonsBell experiments with random destination sourcesHigh degree of entanglement and nonlocality of a two-photon state generated at 532 nmIntegrated optical circuits for polarisation-entangled photonsExperimental quantum process tomography of non-trace-preserving mapsReply to “Comment on ‘Device-independent entanglement-based Bennett 1992 protocol’ ”Device-independent entanglement-based Bennett 1992 protocolSource-device-independent heterodyne-based quantum random number generator at 17 GbpsTowards quantum communication from global navigation satellite systemExperimental quantum key distribution with finite-key security analysis for noisy channelsSub-ns timing accuracy for satellite quantum communicationsThree-observer Bell inequality violation on a two-qubit entangled stateExperimental single-photon exchange along a space link of 7000 kmSatellite quantum communication towards GEO distancesExperimental Satellite Quantum CommunicationsBell scenarios in which nonlocality and entanglement are inversely relatedFully nonlocal quantum correlationsTesting Hardy’s nonlocality proof with genuine energy-time entanglementExperimental Bell-inequality violation without the postselection loophole
P50
Q30844233-05FA7957-6F0F-4F91-86E8-C7CABDC13AE4Q34086206-C7233248-8E64-4D47-AA16-A30EF98DF3CDQ36005939-BB225FAD-C43E-4804-A366-1748403AA351Q41095671-1903FECB-F5C6-4F54-A19F-2B3E8E6FC482Q41815772-D172ADA7-9953-4845-8C0E-99D2D1294EC6Q42631283-B723E16B-5282-43F0-B161-ED8B6FC316EBQ47929493-C68C4C24-BADB-4019-BF3D-A41292F5BB60Q50931947-49CB4D9C-6C0C-4A3F-A9D2-F6A2560446A6Q50991330-BB1887BD-37F1-4DCF-835D-9390ACCECD18Q51526916-12C959A5-B4BB-48B0-8EC4-806708F1D1AEQ51534246-80AAC6BF-02BF-472F-BCCC-44F0F4E77FD4Q51551771-7B1084D5-A4D0-4E51-B6A7-D63084A6AD32Q51621228-A3D79C78-17DE-47D8-9F5E-C9437DCC22E0Q53064723-47D0A2FA-DB69-4A71-8EA9-B9399A59A84EQ57594365-9272E4E0-5846-4AB7-97EC-1DC97A322AD2Q59427935-A2C7D794-2DA8-4983-B9E8-B17B204CCC63Q59427953-B85A9CEC-543C-4137-8B7F-FEA25DFAAFD5Q59427963-20B5C8A9-19C7-4523-A1BE-7A739A4FEC47Q59431649-77AF8C87-1D03-48D0-AAAE-4F2C079368F1Q59431700-827B44F6-7798-464A-8379-5A47E057DC27Q59431702-03A6C312-CF19-4EDA-85E5-87FC9D7A3C45Q59434904-0130C080-CFBA-4F71-8676-A6ED80AE3D9CQ59434963-B346A59C-9BB9-4677-B6E1-FDFF6531A6C5Q59434981-5236BE7C-5C9D-4D28-A4DB-8A244E5ED39DQ59434986-5A1A3E22-DD71-47DA-A07A-018B22EC67BCQ59435017-33461286-2414-4F23-8294-747F164A6DB2Q59449146-54F7A843-DD33-4CBA-8901-EC31465B2142Q59449157-2558919B-0687-49F4-8EE1-7C1AE2FD0276Q60044257-A48F7DC8-8A15-4D24-BF69-58BBD4F639D5Q60729188-C2615703-09AA-4039-A9F5-E69622DA43B1Q61197436-EE9CBCA4-74DE-4B71-B636-479CCC7EBFC4Q62041165-D2214BC4-27C9-4528-B34B-F8D45DF718F0Q62041169-0C4BF5F0-AA41-4EE1-857F-3DD0051AC241Q62041775-13046631-B242-4B2A-BCD2-4BB25CCBC448Q62041778-2E07938F-2C14-426E-A881-793C58DD0BBFQ62041782-96D034B3-0A8A-4A24-9ACB-9EC3139D29B4Q62115454-0F02F36A-0834-4D59-BCC2-FBD635ECC9FAQ62115605-8E9E2EA1-048D-4630-9306-EB85F2EA316CQ62115704-66F995B9-BE94-476F-BC1B-EAC2D826076AQ62115734-074C5028-5FC5-40F9-AADF-9E2DA49EC514
P50
description
researcher ORCID ID = 0000-0003-4965-5801
@en
name
Giuseppe Vallone
@ast
Giuseppe Vallone
@en
Giuseppe Vallone
@es
Giuseppe Vallone
@nl
type
label
Giuseppe Vallone
@ast
Giuseppe Vallone
@en
Giuseppe Vallone
@es
Giuseppe Vallone
@nl
prefLabel
Giuseppe Vallone
@ast
Giuseppe Vallone
@en
Giuseppe Vallone
@es
Giuseppe Vallone
@nl
P1153
16302683300
P21
P31
P496
0000-0003-4965-5801