Overview
Our research focuses on the development of new imaging modalities for multimodal nonlinear microscopy. Currently we employ second-harmonic generation (SHG), third-harmonic generation (THG) and two photon excitation fluorescence (TPEF) contrast mechanisms, which are generated simultaneously after femtosecond pulse excitation. Our microscopes are tailored to image live cells and subcellular organelles non-invasively. We investigate ultrastructural properties of collagen, intracellular dynamics in photosynthetic systems, and contractility mechanisms in cardiac and skeletal muscle cells.
NONLINEAR MICROSCOPY FOR CANCER DIAGNOSIS
MUSCLE CONTRACTION IMAGING
ORGANIC LABELS FOR NONLINEAR MICROSCOPY
POLARIMETRIC NONLINEAR MICROSCOPY
WIDE-FIELD NONLINEAR MICROSCOPY
QUANTUM NONLINEAR TOMOGRAPHY
ULTRASHORT LASER DEVELOPMENT
MACHINE LEARNING AIDED IMAGE ANALYSIS
Last Updated: May 1, 2025