about
Development of new photon-counting detectors for single-molecule fluorescence microscopyTime-resolved diffuse optical spectroscopy up to 1700 nm by means of a time-gated InGaAs/InP single-photon avalanche diode.High-throughput single-molecule fluorescence spectroscopy using parallel detection.New photon-counting detectors for single-molecule fluorescence spectroscopy and imaging.10 ps resolution, 160 ns full scale range and less than 1.5% differential non-linearity time-to-digital converter module for high performance timing measurements.Ultra high-throughput single molecule spectroscopy with a 1024 pixel SPAD.Variable-load quenching circuit for single-photon avalanche diodes.Counting, timing, and tracking with a single-photon germanium detector.Single-photon pulsed-light indirect time-of-flight 3D ranging.Complete single-photon counting and timing module in a microchip.Single-photon imaging at 20,000 frames/s.Non-contact time-resolved diffuse reflectance imaging at null source-detector separation.Low-noise low-jitter 32-pixels CMOS single-photon avalanche diodes array for single-photon counting from 300 nm to 900 nm.0.16 µm⁻BCD Silicon Photomultipliers with Sharp Timing Response and Reduced Correlated Noise60-Channel 10 $\mu$s Time-Resolution Counter Array for Long Term Continuous Event CountingPhoton counting arrays for astrophysicsSpada: An Array of Spad Detectors For Astrophysical ApplicationsSingle-Photon Avalanche Diode Arrays for Fast Transients and Adaptive Optics60-channel high-resolution counter array for high-speed continuous long-term data acquisitionPushing technologies: single-photon avalanche diode arraysSub-Rayleigh Imaging viaN-Photon DetectionSingle-fiber diffuse optical time-of-flight spectroscopyTime-resolved diffuse reflectance using small source-detector separation and fast single-photon gatingSingle-photon detection beyond 1 µm: performance of commercially available InGaAs/lnP detectorsFully-integrated CMOS single photon counterSubnanosecond single-photon timing with commercially available germanium photodiodesNanosecond single-photon timing with InGaAs/InP photodiodesHigh-throughput gated photon counter with two detection windows programmable down to 70 ps widthMultispectral Depth-Resolved Fluorescence Lifetime Spectroscopy Using SPAD Array Detectors and Fiber Probes
P50
Q34319626-BBAA9B1E-727C-418A-8448-3B430E7DF11CQ34338740-18C8C03D-C1D9-4771-9E8E-85EFA0230C08Q35010642-D4BFAA45-AF52-43D0-896E-561470CCF64AQ38691463-455D0F58-6171-457F-9F57-75158E921AB2Q40053398-72B080B1-896C-46CB-8AB9-88F85E16D82BQ41844199-08A1B09F-BBBB-4C06-BA56-78C99809B412Q47652131-E04B1491-7E64-42E0-8A0F-C247170A67F5Q49127733-AA03B274-0093-490B-A0CE-C91BE0982665Q51246801-DBA4D558-5BDD-4D8E-9FA4-55135EB0A605Q51592336-2C40F02B-A36B-44BB-B042-6A4D8076F5A6Q51959201-CC9E1354-35B0-4BD4-B124-6BF9E5F36DC7Q53178771-C6220041-E024-433B-A707-ECE8FF58CDDDQ54375236-61BE003F-CF1A-4783-ACC6-E61585E0FC4CQ58614822-51E3AD6B-861F-442E-B0BB-FC059542EE0BQ59694617-A2065399-2904-4A4C-AB9C-557E7FAB5F97Q59694623-B851B59A-EF0D-4EE8-82B8-B6893613432AQ59694628-5B1B54A8-4ADC-4896-BBCD-6F7D1F1789EFQ59694630-AE7C8E0B-AA1E-4EE5-A974-8F40E60FA5CEQ59694634-3B6E2843-DEBE-46CA-B8D3-6825FC95D4DBQ59694637-501C710F-9308-4231-887F-9EF096DA98D9Q62272315-0FF412AD-003A-4FA8-89E2-30025D9B1F8DQ62539280-FBFC1C4B-0AFA-4D9D-B4E4-1FFA0C5B4E5BQ81375248-423EE9F4-F4A9-42F6-A689-4740AA37D67EQ82493128-A1E4521B-CFB7-47F9-AF7F-ADEBE2BAC9ACQ84076228-2A26FBE7-0B3B-4F95-AE5E-C958113EA4A1Q84617258-79CA55A8-E862-4C4C-97E1-F96C2547745CQ84756040-465FC208-9A75-4E0F-A337-424753AE7D8DQ87272833-610C2D76-745E-42B5-BD33-7A30E42F0E21Q92756318-167FCE69-8144-4932-B174-D705B87DDF11
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0003-1715-501X
@en
name
F Zappa
@ast
F Zappa
@en
F Zappa
@es
F Zappa
@nl
type
label
F Zappa
@ast
F Zappa
@en
F Zappa
@es
F Zappa
@nl
prefLabel
F Zappa
@ast
F Zappa
@en
F Zappa
@es
F Zappa
@nl
P106
P1153
7003555371
P2456
P31
P496
0000-0003-1715-501X