Title :
Digital Holography at Shot Noise Level
Author :
Verpillat, Frédéric ; Joud, Fadwa ; Atlan, Michael ; Gross, Michel
Author_Institution :
Lab. Kastler Brossel, UPMC, Paris, France
Abstract :
By a proper arrangement of a digital holography setup, that combines off-axis geometry with phase-shifting recording conditions, it is possible to reach the theoretical shot noise limit, in real-time experiments. We studied this limit, and we show that it corresponds to 1 photo-electron per pixel within the whole frame sequence that is used to reconstruct the holographic image. We also show that Monte Carlo noise synthesis onto holograms measured at high illumination levels enables accurate representation of the experimental holograms measured at very weak illumination levels. An experimental validation of these results is done.
Keywords :
holography; phase shifting interferometry; shot noise; Monte Carlo noise synthesis; digital holography; holographic image; off-axis geometry; phase-shifting recording conditions; shot noise level; Digital recording; Geometry; Holography; Image reconstruction; Lighting; Monte Carlo methods; Noise level; Noise measurement; Phase noise; Pixel; Digital holography; off-axis holography; phase-shifting; shot noise,;
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2010.2044366
