Ouvrages publiés en collaboration (4)
  1. 1. Dubois, F., Yourassowsky, C., Boudjeltia, K. Z., & Dohet-Eraly, J. (2022). Holography - Recent Advances and Applications: Digital Holographic Microscopy in Partially Coherent Illumination and Applications.
  2. 2. El Mallahi, A., Minetti, C., & Dubois, F. (2015). New techniques in Digital Holography: Automation of digital holographic detection procedures for life sciences applications. Wiley.
  3. 3. Dubois, F., El Mallahi, A., Minetti, C., & Yourassowsky, C. (2014). Multi-dimensional imaging: Advanced digital holographic microscopy for live sciences applications. Wiley.
  4. 4. Dubois, F., Yourassowsky, C., & Monnom, O. (2004). Microscopie en holographie digitale avec une source partiellement cohérente.
    5.   Parties d'ouvrages collectifs (5)
  5. 1. Dubois, F., Yourassowsky, C., Zouaoui Boudjeltia, K., & Dohet-Eraly, J. (2022). Holography - Recent Advances and Applications: Digital Holographic Microscopy in Partially Coherent Illumination and Applications. In Chapitre IntechOpen 82811-3, Holography - Recent Advances and Applications. IntechOpen.
  6. 2. El Mallahi, A., Minetti, C., & Dubois, F. (2015). Automation of digital holographic detection procedures for life sciences applications. In New Techniques in Digital Holography (pp. 137-167). wiley. doi:10.1002/9781119091745.ch4
  7. 3. Dubois, F., El Mallahi, A., Minetti, C., & Yourassowsky, C. (2014). Advanced Digital Holographic Microscopy for Life Science Applications. In Multi-Dimensional Imaging (pp. 127-151). Wiley Blackwell. doi:10.1002/9781118705766.ch6
  8. 4. Dubois, F., Yourassowsky, C., Callens, N., Minetti, C., Queeckers, P., Podgorski, T., & Brandenburger, A.-N. (2011). Digital holographic microscopy working with a partially spatial coherent source. In P. Ferraro, A. Wax, & Z. Zalevsky (Eds.), Coherent light microscopy for imaging and quantitative phase analysis (pp. 31-59). Springer.
  9. 5. Minetti, C., & Dubois, F. (2002). Development of pattern recognition tools based on the automatic spatial frequency selection algorithm in view of actual applications. In B. Javidi (Ed.), Image recognition and classification: algorithms, systems, and applications (pp. 427-489). Bahram Javidi.(Optical engineering, 78).
    10.   Articles dans des revues avec comité de lecture (130)
  10. 1. Kotsalos, C., Raynaud, F., Lätt, J., Dutta, R., Dubois, F., Zouaoui Boudjeltia, K., & Chopard, B. (2022). Shear induced diffusion of platelets revisited. Frontiers in physiology, 13, 2148.
  11. 2. Dohet-Eraly, J., Zouaoui Boudjeltia, K., Rousseau, A., Queeckers, P., Lelubre, C., Desmet, J.-M., Chopard, B., Yourassowsky, C., & Dubois, F. (2022). Three-dimensional analysis of blood platelet spreading using digital holographic microscopy: a statistical study of the differential effect of coatings in healthy volunteers and dialyzed patients. Biomedical optics express, 13(1), 502-513. doi:https://doi.org/10.1364/BOE.448817
  12. 3. Zouaoui Boudjeltia, K., Kotsalos, C., Ribeiro De Sousa, D., Rousseau, A., Lelubre, C., Sartenaer, O., Piagnerelli, M., Dohet-Eraly, J., Dubois, F., Tasiaux, N., Chopard, B., & Van Meerhaeghe, A. (2020). Spherization of red blood cells and platelet margination in COPD patients. Annals of the New York Academy of Sciences, 1485(1), 71-82. doi:doi:10.1111/nyas.14489
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