about
Complete Characterization of Quantum-Optical ProcessesUltrafast, high repetition rate, ultraviolet, fiber-laser-based source: application towards Yb<sup>+</sup> fast quantum-logic.Single-Crystalline 3C-SiC anodically Bonded onto Glass: An Excellent Platform for High-Temperature Electronics and Bioapplications.Reference-frame-independent quantum-key-distribution server with a telecom tether for an on-chip client.Quantum photonics: Entangled photons on a chip.Quantum walks of correlated photons.Fast path and polarization manipulation of telecom wavelength single photons in lithium niobate waveguide devices.Memory for light as a quantum process.Quantum memory for squeezed light.A single-atom 3D sub-attonewton force sensor.Generating, manipulating and measuring entanglement and mixture with a reconfigurable photonic circuitMeasuring protein concentration with entangled photonsActive demultiplexing of single photons from a solid-state sourceScalable ion–photon quantum interface based on integrated diffractive mirrors3C–SiC on glass: an ideal platform for temperature sensors under visible light illuminationIntegrated optics architecture for trapped-ion quantum information processingNine-channel mid-power bipolar pulse generator based on a field programmable gate arrayAnisotropic model for the fabrication of annealed and reverse proton exchanged waveguides in congruent lithium niobateQuantum Walks of Correlated Photon Pairs in Two-Dimensional Waveguide ArraysQuantum key distribution with integrated opticsCorrelated photon-pair generation in a periodically poled MgO doped stoichiometric lithium tantalate reverse proton exchanged waveguideGeneration of correlated photon pairs in a chalcogenide As2S3 waveguideQuantum-optical process tomography using coherent statesReconfigurable controlled two-qubit operation on a quantum photonic chipPropagation of squeezed vacuum under electromagnetically induced transparencySpatial and temporal characterization of a Bessel beam produced using a conical mirrorEfficient second harmonic generation in femtosecond laser written optical waveguides on periodically poled lithium niobateFemtosecond laser writing of waveguides in periodically poled lithium niobate preserving the nonlinear coefficientObservation of Dynamic Localization in Periodically Curved Waveguide ArraysSemiclassical motion of a multiband Bloch particle in a time-dependent field: Optical visualizationA reconfigurable entangling circuit on a photonic chipErratum: “Generation of correlated photon pairs in a chalcogenide As2S3 waveguide” [Appl. Phys. Lett. 98, 051101 (2011)]Integrated optics components for quantum informationPhotonic components for Quantum Information scienceIntegrated quantum photonicsA Reconfigurable Photonic Chip for Generating, Manipulating and Measuring Entanglement and MixtureGeneration of Correlated Photons in an Integrated Chalcogenide As_2S_3 WaveguideNew Photonic components for Quantum Information ScienceNew Photonic components for Quantum information sciencePhotonic components for Quantum Information Science
P50
Q33372073-CD1B5006-29CE-4C28-ABAB-B026F1B4C133Q36087423-93305279-2B8A-4889-A3E8-FA8A41C9E964Q42798389-C69668E1-B96D-48F6-A3D3-870A38CA8834Q51517486-00C803C9-BE1E-4BFE-A63F-EE3997CC61AEQ51551929-C271BBB5-6256-446D-8154-7E2B99043777Q51554815-4AB80C58-0719-42CD-AB8C-3DC5A4AE008AQ51621748-C5228DE2-F71F-492B-A550-AF1586FE14CAQ51955975-DCDDA97A-7D5E-4C45-8927-BA106EAD2686Q51966251-7F15136D-60D4-44FF-8117-3F2F3268BFD1Q55254601-0CCD918A-DC32-4598-8494-E078EB599A1EQ56060218-E37114A7-152C-41E3-B5B9-D36869AEB986Q59427941-F96AAC92-2AEB-45B1-857F-1C88DD741BE5Q59434846-F3036486-2C2A-484A-8EDF-A251C52B4F18Q59434848-1F889CFA-4212-43F2-843C-C556015339C4Q59434850-885EF9F4-3E0C-408F-9201-30B1CE4425D0Q59434853-B12824BB-4AEC-45A4-900C-7ED8532B2CB8Q59434855-68AFE65C-D685-43FE-81B1-BC4E4A3207D3Q59434857-2AE3C2B1-7D68-4CA0-BFB4-B79C436E9A90Q59434860-9C0C24E6-E8E8-4666-8E66-0B89246028F4Q59434862-F20053F5-E668-4072-BAE1-AA108E145779Q59434865-0E93CA54-4530-48CD-B2AB-16893A6C1C41Q59434867-6B9FE104-ECB4-4F90-B9A6-6D7D201571A8Q59434869-E4FC0D20-C36D-486E-98DA-213FB713143BQ59434872-7B20891A-A163-4D51-B6BD-909C0042D1A1Q59434875-5619CC25-038A-4764-BFE8-416380F94624Q59434877-35AE8294-5782-4756-97FF-B2CDFFEE8DB8Q59434879-D67CDDBE-5757-4AEA-96DA-7DB1B48289FEQ59434881-5C1FA80D-6F4B-4078-A8ED-AF3021D21648Q59434884-786272BF-D1DF-4286-98EF-5533812A2B9EQ59434887-2ECBE4B9-CFDD-423E-BBD9-62396FA48DFCQ59436608-C2B445CA-435F-4CB1-80EB-034D210A3FFDQ59436619-AF82D43F-6925-4D1E-8D0D-EE66E4932195Q59436635-C376A95B-0B37-470A-90CD-16B105201EF8Q59436653-D562933C-4AD4-464F-8033-9E864F10C836Q59436668-42913F39-CD28-4BEB-B98A-57E437091C9CQ59436887-72E48183-36E8-4579-822B-5742FD98FF04Q59436892-8450D6E7-5482-4BE6-86D5-DD0B716E8F9AQ59436897-BEF51247-3D24-48FA-999F-6AE59D8E1A34Q59436902-CC6973A9-9554-400C-85C5-06D7FC5A158DQ59436906-3F74F9DE-1BAC-4DD1-A8AD-9B24F85EFFC4
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Mirko Lobino
@ast
Mirko Lobino
@en
Mirko Lobino
@es
Mirko Lobino
@nl
Mirko Lobino
@sl
type
label
Mirko Lobino
@ast
Mirko Lobino
@en
Mirko Lobino
@es
Mirko Lobino
@nl
Mirko Lobino
@sl
prefLabel
Mirko Lobino
@ast
Mirko Lobino
@en
Mirko Lobino
@es
Mirko Lobino
@nl
Mirko Lobino
@sl
P108
P1053
C-6503-2008
P106
P31
P3829
P496
0000-0001-8091-8951