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Memory effect assisted imaging through multimode optical fibres

Shuhui Li, Simon A. R. Horsley, Tomáš Tyc, Tomáš Čižmár, David B. Phillips

2021Nature Communications112 citationsDOIOpen Access PDF

Abstract

When light propagates through opaque material, the spatial information it holds becomes scrambled, but not necessarily lost. Two classes of techniques have emerged to recover this information: methods relying on optical memory effects, and transmission matrix (TM) approaches. Here we develop a general framework describing the nature of memory effects in structures of arbitrary geometry. We show how this framework, when combined with wavefront shaping driven by feedback from a guide-star, enables estimation of the TM of any such system. This highlights that guide-star assisted imaging is possible regardless of the type of memory effect a scatterer exhibits. We apply this concept to multimode fibres (MMFs) and identify a 'quasi-radial' memory effect. This allows the TM of an MMF to be approximated from only one end - an important step for micro-endoscopy. Our work broadens the applications of memory effects to a range of novel imaging and optical communication scenarios.

Topics & Concepts

Multi-mode optical fiberWavefrontComputer scienceTransmission (telecommunications)OpacityOpticsOptical fiberOptical communicationAdaptive opticsRange (aeronautics)Matrix (chemical analysis)Optical storageMaterials scienceSimple (philosophy)PhysicsElectronic engineeringMultiplexingSpatial light modulatorOptical imagingWork (physics)OptoelectronicsData transmissionRandom lasers and scattering mediaPhotonic Crystal and Fiber OpticsOptical Coherence Tomography Applications
Memory effect assisted imaging through multimode optical fibres | Litcius