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Reference-less measurement of the transmission matrix of a highly scattering material using a DMD and phase retrieval techniques

This paper investigates experimental means of measuring the transmission matrix (TM) of a highly scattering medium, with the simplest optical setup. Spatial light modulation is performed by a digital micromirror device (DMD), allowing high rates and high pixel counts but only binary amplitude modulation. We used intensity measurement only, thus avoiding the need for a reference beam. Therefore, the phase of the TM has to be estimated through signal processing techniques of phase retrieval. Here, we compare four different phase retrieval principles on noisy experimental data. We validate our estimations of the TM on three criteria : quality of prediction, distribution of singular values, and quality of focusing. Results indicate that Bayesian phase retrieval algorithms with variational approaches provide a good tradeoff between the computational complexity and the precision of the estimates.

preprint2015arXivOpen access
Angelique DremeauAntoine LiutkusDavid MartinaOri KatzChristophe SchulkeFlorent KrzakalaSylvain GiganLaurent Daudet
physics.optics
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Open access8 authors1 topic
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Angelique DremeauAntoine LiutkusDavid MartinaOri KatzChristophe SchulkeFlorent KrzakalaSylvain GiganLaurent Daudet

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