about
High-accuracy picosecond characterization of gain-switched laser diodes.A 32-channel photon counting module with embedded auto/cross-correlators for real-time parallel fluorescence correlation spectroscopy.Silicon photon-counting avalanche diodes for single-molecule fluorescence spectroscopy.Development of new photon-counting detectors for single-molecule fluorescence microscopyHigh-throughput FCS using an LCOS spatial light modulator and an 8 × 1 SPAD array.High-throughput single-molecule fluorescence spectroscopy using parallel detection.High-throughput multispot single-molecule spectroscopy.Single-molecule FRET experiments with a red-enhanced custom technology SPAD.8-spot smFRET analysis using two 8-pixel SPAD arrays.Improving the counting efficiency in time-correlated single photon counting experiments by dead-time optimization.Multispot single-molecule FRET: High-throughput analysis of freely diffusing molecules.16-Ch Time-resolved Single-Molecule Spectroscopy Using Line Excitation.Gigacount/second Photon Detection Module Based on an 8 × 8 Single-Photon Avalanche Diode Array.Silicon technologies for arrays of Single Photon Avalanche Diodes.A 48-pixel array of Single Photon Avalanche Diodes for multispot Single Molecule analysisParallel multispot smFRET analysis using an 8-pixel SPAD array.Avalanche current read-out circuit for low jitter parallel photon timing.32-channel time-correlated-single-photon-counting system for high-throughput lifetime imaging.New photon-counting detectors for single-molecule fluorescence spectroscopy and imaging.Development and characterization of an 8×8 SPAD-array module for gigacount per second applicationsNew silicon technologies enable high-performance arrays of Single Photon Avalanche Diodes.Note: Wide-operating-range control for thermoelectric coolers.Optical crosstalk in single photon avalanche diode arrays: a new complete model.Note: Fully integrated active quenching circuit achieving 100 MHz count rate with custom technology single photon avalanche diodes.High-speed and low-distortion solution for time-correlated single photon counting measurements: A theoretical analysis.High-voltage integrated active quenching circuit for single photon count rate up to 80 Mcounts/s.Operation of silicon single photon avalanche diodes at cryogenic temperature.High-efficiency integrated readout circuit for single photon avalanche diode arrays in fluorescence lifetime imaging.Microchips and single-photon avalanche diodes for DNA separation with high sensitivity.Note: Fully integrated time-to-amplitude converter in Si-Ge technology.Monolithic time to amplitude converter for time correlated single photon counting.Red-Enhanced Photon Detection Module Featuring a 32 × 1 Single-Photon Avalanche Diode Array.Custom single-photon avalanche diode with integrated front-end for parallel photon timing applications.48-spot single-molecule FRET setup with periodic acceptor excitationDual-color microchip electrophoresis with single-photon avalanche diodes: Application to mutation detectionRadiation tests of single photon avalanche diode for space applicationsScintillating fibers readout by Single Photon Avalanche Diodes (SPAD) for space applicationsSingle Photon Avalanche Diodes for space applicationsAn extremely low-noise heralded single-photon source without temporal post-selectionAn extremely low-noise heralded single-photon source: A breakthrough for quantum technologies
P50
Q33504053-A6661707-C831-48FA-9E14-188E01D89BB0Q34288365-40FD51BC-B9C0-4E78-8933-DB7D90820BB3Q34311447-16A1A306-F22A-4718-93E9-B04411166415Q34319626-1F88D876-8CD1-4316-A87D-993DEEFFF63BQ34476579-127B84FE-63E7-4BF6-A417-7306194CE307Q35010642-F9E7C030-7198-4F33-85C0-EBC0F840AEE3Q35020062-A21D2F07-084C-4AE3-A7FE-E23582B49A99Q35076552-596356D9-4A5D-4602-82E0-2B5DFE150854Q35081266-726956E3-6DF4-40DD-B164-5DCCD7156C66Q36258256-EABCF1F4-EC02-49C3-A8F2-39836E5C4E82Q36349749-B4D5ACBE-8794-46BC-BAD6-06A36ED12DB3Q36398770-71FC71C1-9CFF-4DE1-8983-037BA94880FBQ36883897-1AC8CAF0-954B-407D-9C92-F4BD8EF1C4F5Q37333888-46054113-69AD-44E1-8D72-7AE535D3288BQ37397380-C61D31D8-4A2F-4111-B962-7CC3052E8588Q37418314-FD72DADB-E856-46FC-99AA-5A1BC3BB6210Q38258728-B6192BFA-3867-4700-8A96-5BFD24BCE41EQ38597576-50FE6CDE-B556-46A3-8714-B150BD15A14AQ38691463-E13C9CB9-A236-476C-AA3F-8D2DD1C64CA5Q42341743-ADF0367C-9885-4D51-A97B-B811008C6DF5Q42791088-759A3868-99F2-4C3C-B97F-7173734F32C6Q47590916-FED5E363-A914-49E1-AA26-7DE7345C78CBQ47644104-5B335D04-8562-4DFD-989D-341E89BAA4EBQ48178123-D3679D9F-BF23-463C-B850-E011E5E8E648Q48328043-3FFE81C5-4A9E-4E97-B77A-F0253972C5A4Q50231496-60BD8039-B5FC-4A5A-86DD-54FD2BDD773DQ50960751-BE4B4D6D-2496-4BEC-91C4-C02FF0ED79D1Q51031962-BAF2F83C-B299-4A3C-8989-55DFC2F38D5BQ51121468-2D0D5708-E6C2-4CB9-8831-0FC813D9DA97Q51642655-2B00FEF7-382C-4636-86AE-9DD08304E06FQ51796204-2E39722F-6345-4D7A-86F9-80C2CE775422Q52629339-AB0D9502-B1A4-42B2-8692-7C73F81E890FQ53168410-C6FB0C6F-AB8F-4205-BC78-4EBC4C8155ACQ56395083-5F04357E-A83A-4942-B904-8071F289C23AQ57079117-6A7A35F2-B2DE-490E-B8C5-AE3CB4D5F483Q59415843-DD3FC090-D953-424F-B881-A17174FEFF99Q59415849-01B1D1C4-4A85-416F-AA00-8BE6DCDB6090Q59415851-56AE41C8-EDF8-46CC-B515-2A4C3CCF4158Q62049044-92F05D2D-AFC4-4FDC-A41E-FA0A0F35A4FEQ62049053-C8A6E7AD-6EE7-4BA6-A41C-C137EC2B8DBA
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Massimo Ghioni
@ast
Massimo Ghioni
@en
Massimo Ghioni
@es
Massimo Ghioni
@nl
Massimo Ghioni
@sl
type
label
Massimo Ghioni
@ast
Massimo Ghioni
@en
Massimo Ghioni
@es
Massimo Ghioni
@nl
Massimo Ghioni
@sl
prefLabel
Massimo Ghioni
@ast
Massimo Ghioni
@en
Massimo Ghioni
@es
Massimo Ghioni
@nl
Massimo Ghioni
@sl
P1053
J-4338-2017
P106
P1153
7003448006
P21
P2456
P31
P3829
P496
0000-0002-8626-3658