Tags - (2) wavefront shaping deep imaging

Department(s)/lab(s): Physics โ€“ Laboratoire Kastler Brossel, Sorbonne Universitรฉ | Optical Imaging in Complex Media Group (Gigan Group / LKB) @ Sorbonne
Summary:

Gigan leads the Optical Imaging group at LKB, pioneering wavefront shaping and computational imaging through scattering media. Research directions: (1) Wavefront shaping / transmission matrix โ€” measuring the ~10^5 optical modes of a scattering sample's transmission matrix to focus and image through highly scattering biological tissues; roadmap on deep tissue imaging (J. Phys. Photonics 2022, lead author); (2) Multimode quantum optics through complex media โ€” spatially multimode squeezed states transmitted through scattering media for quantum-enhanced imaging; (3) Optical computing / AI โ€” using multiple scattering as a physical neural network for reservoir computing and nonlinear machine learning (LightOn spin-off, 2016); (4) Neurophotonics applications โ€” focusing through the skull for deep brain imaging. Two ERC grants (2011, 2017). Optica Fellow. IUF member (2016โ€“2021).

Department(s)/lab(s): Physics / LKB | PICO Group (Gigan Lab) @ ENS Paris
Summary:

Sylvain Gigan's PICO (Photonics, Information, and Complexity) group focuses on imaging through and with complex and scattering media. Research: (1) wavefront shaping through scattering media โ€” adaptive optics and transmission matrix approaches for deep-tissue fluorescence imaging; (2) multimode quantum optics through complex media โ€” pushing quantum light through scattering and multi-mode fibres; (3) analogue computing with random optical scattering media. Key for biosensing: deep tissue imaging at high spatial resolution and quantum-enhanced light manipulation.