Automatic laser alignment for multifocal microscopy using a LCOS SLM and a 32×32 pixel CMOS SPAD array

Progress in Biomedical Optics and Imaging - Proceedings of SPIE

Volumn 8086, Issue , 2011, Pages

  Tyndall, David ^a   Walker, Richard ^a   Nguyen, Krzysztof ^a   Galland, Rémi ^b   Gao, Jie ^b   Wang, Irène ^b   Kloster, Meike ^b   Delon, Antoine ^b   Henderson, Robert ^a  

^a UNIVERSITY OF EDINBURGH   (United Kingdom)

^b LIPHY   (France)

Author keywords

Confocal; FCS; FLIM; Photon counting; SLM; SPAD; TCSPC

Indexed keywords

CONFOCAL; FCS; FLIM; PHOTON COUNTING; SLM; SPAD; TCSPC;

ALIGNMENT; CONFOCAL MICROSCOPY; DETECTORS; FLUORESCENCE; FLUORESCENCE SPECTROSCOPY; LASER EXCITATION; LIGHT MODULATORS; LIQUID CRYSTALS; OPTICAL MICROSCOPY; OPTICAL SYSTEMS; PARTICLE BEAMS; PHOTONS;

PIXELS;

EID: 79960524156     PISSN: 16057422     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1117/12.889738     Document Type: Conference Paper

References (8)

1. Gösch, M., Blom, H., Anderegg, S., Korn, K., Thyberg, P.,Wells, M., Lasser, T., Rigler, R., Magnusson, A., and Hard, S., "Parallel dual-color fluorescence cross-correlation spectroscopy using diffractive optical elements," J. Biomed. Opt. 10 (2005).
2. Blancquaert, Y., Gao, J., Derouard, J., and Delon, A., "Spatial fluorescence cross-correlation spectroscopy by means of a spatial light modulator," J. Biophotonics 1, 408-418 (2008).
3. Colyer, R., Scalia, G., Rech, I., A.Gulinatti, Ghioi, M., Cova, S., Weiss, S., and Michalet, X., "High-throughput FCS using an LCOS spatial light modulator and an 8×1 SPAD array," Biomedical Optics Express 1(5), 1408-1431 (2010).
4. Richardson, J., Walker, R., Grant, L., Stoppa, D., Borghetti, F., Charbon, E., Gersbach, M., and Henderson, R. K., "A 32×32 50ps Resolution 10 bit Time to Digital Converter Array in 130nm CMOS for Time Correlated Imaging," in [IEEE Custom Integrated Circuits Conference], (2009).
5. Cojoc, D., Fabrizio, E. D., Businaro, L., and Cabrini, S., "Spherical-based approach to design diffractive optical elements," in [Proc. SPIE], 5227, 123-131 (2003).
6. Richardson, J., Grant, L., and Henderson, R., "A Low Dark Count Single Photon Avalanche Diode Structure Compatible with Standard Nanometer Scale CMOS Technology," IEEE Photonics Technology Letters 21(14), 1020-1022 (2009).
7. Giraud, G., Schulze, H., Li, D., Bachmann, T., Crain, J., Tyndall, D., Richardson, J., Walker, R., Stoppa, D., Charbon, E., Henderson, R., and Arlt, J., "Fluorescence lifetime biosensing with DNA microarrays and a CMOS-SPAD imager," Biomedical Optics Express 1(5), 1302-1308 (2010).
8. Li, D., Arlt, J., Richardson, J., Walker, R., Buts, A., Stoppa, D., Charbon, E., and Henderson, R., "Real-time fluorescence lifetime imaging system with a 32×32 0.13μm CMOS low dark-count single-photon avalanche diode array," Optics Express 18(10), 10257-10269 (2010).