Komplexní fotonika
Understanding life has huge implications on our development and wellbeing. The outstanding complexity of living organisms brings questions we can’t answer, because there are strong limitations of available technologies giving sufficiently detailed insight through scattering tissues.
Amongst other activities we develop a new class of endoscopes that can break through this barrier. This technology can potentially go as far as reaching super-resolution with instruments having a footprint comparable to the dimensions of a single cell.
Technological boost is essential for all aspect of our research agenda. Our activities focus on imaging with new types of multimode optical fibers. We focus mainly on gradient-index fibers, which offer low dispersion as well as high resilience to bending. |
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Better understanding of light-transport processes will enable faster and more precise light control especially in highly dynamic regimes of imaging. Multimode fibres deliver light signals in the form of apparently random speckled patterns, in a very similar fashion to other random media. Although multimode fibres feature remarkably faithful cylindrical symmetry they are frequently classified as unpredictable optical systems. Our research challenges this commonly held notion. We develop holographic geometries for complete and accurate analysis of light signals traveling throughout the fibre and verify the observations by advanced numerical modelling. Harnessing the predictability of multimode waveguides in endoscopy will allow for numerous enhancements of deep tissue imaging. |
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Latest publications: Stibůrek M, Ondráčková P, Tuckova T, Turtaev S, Šiler M, Pikálek T, Jákl P, Gomes A, Krejci J, Kolbabkova P, Uhlirova H, Cizmar T. “110 mu m thin endo-microscope for deep-brain in vivo observations of neuronal connectivity, activity and blood flow dynamics” NATURE COMMUNICATIONS, 14, 1897 (2023) (ABSTRACT) Cifuentes A., Trägårdh J. , "A method for single particle tracking through a multimode fiber", Opt. Express 30, 36055-36064 (2022) (ABSTRACT) A Abdelfattah et al. , "Neurophotonic tools for microscopic measurements and manipulation: status report", Neurophoton. 9(S1) 013001(2022) (ABSTRACT) Jákl P, Šiler M, Ježek J, and Cifuentes A, Trägårdh J, Zemánek P and Čižmár T, "Endoscopic Imaging Using a Multimode Optical Fibre Calibrated with Multiple Internal References.", Photonics, 9, 37 (2022) (ABSTRACT) Stellinga D, Phillips DB, Mekhail SP, Selyem A, Turtaev S, Čižmár T, Padgett MP, "Time-of-flight 3D imaging through multimode optical fibers.", Science, 374, 1395-1399 (2021) (ABSTRACT) Tučková T., Šiler M., Boonzajer Flaes DE, Jákl P., Turtaev S., Krátký S., Heintzmann R., Uhlířová H., Čižmár T., "Computational image enhancement of multimode fibre-based holographic endo-microscopy: harnessing the muddy modes.", Opt. Express, 29, 38206–38220 (2021) (ABSTRACT) Silveira BM, Pikálek T., Stibůrek M., Ondráčková P., Jákl P., Leite IT, Čižmár T., "Side-view holographic endomicroscopy via a custom-terminated multimode fibre.", Opt. Express, 29, 23083–23095 (2021) (ABSTRACT) Cifuentes A., Pikálek T., Ondráčková P., Amezcua-Correa R., Antonio-Lopez J. E., Čižmár T., Trägårdh J., "Polarization-resolved second-harmonic generation imaging through a multimode fiber.", Optica 8, 1065-1074 (2021) (ABSTRACT) Boonzajer Flaes DE , Štolzová H., Čižmár T., "Time-averaged image projection through a multimode fiber.", Opt. Express, 29, 28005–28020 (2021) (ABSTRACT) Trägårdh J., Pikálek T., Šerý M., Meyer T., Popp J., Čižmár T., "Label-free CARS microscopy through a multimode fiber endoscope", Opt. Express 27, 30055–30066 (2019) (ABSTRACT) Sergey Turtaev, Ivo T. Leite, Kevin J. Mitchell, Miles J. Padgett, David B. Phillips, Tomáš Čižmár, "Comparison of nematic liquid-crystal and DMD based spatial light modulation in complex photonics", Opt. Express 25, 29874-29884 (2017) Sergey Turtaev, Ivo T. Leite, Tristan Altwegg-Boussac, Janelle M. P. Pakan, Nathalie L. Rochefort, Tomáš Čižmár, "High-fidelity multimode fibre-based endoscopy for deep brain in vivo imaging", Light: Science & Applications, volume 7, Article number: 92 (2018) (ABSTRACT) Ivo T. Leite, Sergey Turtaev, Xin Jiang, Martin Šiler, Alfred Cuschieri, Philip St.J. Russell, Tomáš Čižmár, "3-D holographic optical manipulation through high-NA soft-glass multimode fibre”, Nature Photonics (advanced online publication) (2017) ( ABSTRACT)
Team leader: Tomáš Čižmár +420 541 514 131 |