Stoykova, E.Yaraş F.Yontem, A.Ö.Kang H.Onural L.Hamel P.Delacrétaz, Y.Bergoënd I.Arfire, C.Depeursinge, C.2016-02-082016-02-08201310944087http://hdl.handle.net/11693/20716Three approaches for visualization of transparent micro-objects from holographic data using phase-only SLMs are described. The objects are silicon micro-lenses captured in the near infrared by means of digital holographic microscopy and a simulated weakly refracting 3D object with size in the micrometer range. In the first method, profilometric/tomographic data are retrieved from captured holograms and converted into a 3D point cloud which allows for computer generation of multi-view phase holograms using Rayleigh-Sommerfeld formulation. In the second method, the microlens is computationally placed in front of a textured object to simulate the image of the textured data as seen through the lens. In the third method, direct optical reconstruction of the micrometer object through a digital lens by modifying the phase with the Gerchberg-Saxton algorithm is achieved. © 2013 Optical Society of America.EnglishData visualizationMicrolensesMicrometersMicroscopic examinationThree dimensionalComputer generationDigital holographic microscopyGerchberg-Saxton algorithmMicrometer rangesOptical reconstructionTextured objectsThrough the lensTransparent objectsHologramsArticle10.1364/OE.21.028246