Optical Coherence Tomography (OCT) is a fantastic tool that enables us to see the cross-sectional in-vivo real-time image of a living tissue without any physical dissection. A working OCT system has been implemented for the first time in Korea by combining the advanced technologies of optics (fiber and bulk) and electronics. We are designing an advanced all-fiber-based OCT system that can give sub-micron resolution. Recently, bulk-type full-field OCT system having ~ 1 µm high resolution has developed and several biological samples imaging are demonstrated. A femto-second laser and specialty fiber are considered as the tools enhancing the resolution. ODT (Optical Doppler Tomography) and FD OCT (Fourier Domain OCT) are under consideration.
Optical Coherence Tomography (OCT) is a fantastic tool that enables us to see the cross-sectional in-vivo real-time image of a living tissue without any physical dissection. A working OCT system has been implemented for the first time in Korea by combining the advanced technologies of optics (fiber and bulk) and electronics. We are designing an advanced all-fiber-based OCT system that cangive sub-micron resolution.
Recently, bulk-type full-field OCT system having ~ 1 µm high resolution has developed and several biological samples imaging are demonstrated. A femto-second laser and specialty fiber are considered as the tools enhancing the resolution. ODT (Optical Doppler Tomography) and FD OCT (Fourier Domain OCT) are under consideration.