Label-free multimodal microscopy using a single light source and detector for biological imaging
Juehyung Kang, Ungyo Kang, Hyeong Soo Nam, Wooseop Kim, Hyun Jung Kim, Ryeong Hyeon Kim, Jin Won Kim, Hongki Yoo
Abstract
Multimodal nonlinear microscopy has been widely applied in biology and medicine due to its relatively deep penetration into tissue and its label-free manner. However, current multimodal systems require the use of multiple sources and detectors, leading to bulky, complex, and expensive systems. In this Letter, we present a novel method of using a single light source and detector for nonlinear multimodal imaging of biological samples. Using a photonic crystal fiber, a pulse picker, and multimode fibers, our developed system successfully acquired multimodal images of swine coronary arteries, including two-photon excitation fluorescence, second-harmonic generation, coherent anti-Stokes Raman scattering, and backreflection. The developed system could be a valuable tool for various biomedical applications.