Research Areas - (13) Neuroscience Biophotonics Imaging

Full path: Biology > Biophysics > Quantum Biology / Biosensing > Neuroscience Biophotonics Imaging

Department(s)/lab(s): Physics / LOB (Laboratoire d'Optique et Biosciences) | Laboratoire d'Optique et Biosciences (LOB) β€” Beaurepaire Group @ X
Summary:

Willy Supatto (DR2 CNRS, LOB) develops ultrafast two-photon light-sheet microscopy for quantitative in vivo imaging of embryo development and tissue dynamics. Research: (1) two-photon SPIM (light-sheet) for volumetric live imaging in zebrafish embryos; (2) SHG imaging of fibrillar proteins; (3) polarization-THG microscopy of structural anisotropy; (4) photodamage in multiphoton imaging. Part of key LOB team with Beaurepaire.

Department(s)/lab(s): Princeton Neuroscience Institute | Tank Lab @ Princeton
Summary:

Tank is a pioneer of two-photon laser-scanning microscopy for imaging calcium dynamics in dendrites and neural circuits in vivo, and co-directs the Bezos Center for Neural Circuit Dynamics, which develops large-scale optical recording instrumentation combined with rodent virtual-reality systems to study persistent neural activity and short-term memory. His group's methodological contributions to cellular-resolution optical imaging underpin much of modern systems neuroscience.

Department(s)/lab(s): Physics & Astronomy | Zheltikov Biophotonics Laboratory @ TAMU
Summary:

Zheltikov integrates NV-diamond magnetometry into photonic-crystal fibers for high-resolution, fiber-delivered magnetic-field imaging and endoscopy, alongside ultrafast biophotonics (multiphoton deep-tissue imaging, SWIR probes) and quantum-light molecular spectroscopy. In the broader landscape of NV-centre ensemble quantum sensing (DEER, nano-NMR, T1 relaxometry) operating near pT/sqrt(Hz) sensitivity, this work extends NV ensemble sensing into fiberized, in-vivo-compatible geometries.