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Anti-scattering light focusing with full-polarization digital optical phase conjugation based on digital micromirror devices

Linxian Liu, Wenjie Liang, Yuan Qu, Qiaozhi He, Rongjun Shao, Chunxu Ding, Jiamiao Yang

2022Optics Express17 citationsDOIOpen Access PDF

Abstract

The high resolution of optical imaging and optogenetic stimulation in the deep tissue requires focusing light against strong scattering with high contrast. Digital optical phase conjugation (DOPC) has emerged recently as a promising solution for this requirement, because of its short latency. A digital micromirror device (DMD) in the implementation of DOPC enables a large number of modulation modes and a high speed of modulation both of which are important when dealing with a highly dynamic scattering medium. Here, we propose full-polarization DOPC (fpDOPC) in which two DMDs simultaneously modulate the two orthogonally polarized components of the optical field, respectively, to mitigate the effect of depolarization caused by strong scattering. We designed a simple system to overcome the difficulty of alignment encountered when modulating two polarized components independently. Our simulation and experiment showed that fpDOPC could generate a high-contrast focal spot, even though the polarization of light had been highly randomized by scattering. In comparison with the conventional method of modulating the polarization along a particular direction, fpDOPC can improve the peak to background ratio of the focal spot by a factor of two. This new technique has good potential in applications such as high-contrast light focusing in vivo.

Topics & Concepts

Digital micromirror deviceOpticsPolarization (electrochemistry)ScatteringPhase modulationLight scatteringSpatial light modulatorPhase conjugationMaterials scienceOptoelectronicsPhysicsLaserPhase noiseChemistryPhysical chemistryRandom lasers and scattering mediaOptical Coherence Tomography ApplicationsOrbital Angular Momentum in Optics