Fast 3D imaging with lensless holographic endoscopy employing coherent fiber bundles

“…In a recently developed camera [46], each pixel is divided into four at 0°, 45°, 90° and 135° polarization. On the opposite end of the field-of-view spectrum, one team developed a self-calibrating fiber-optic endoscope the size of a few human hairs that can see structures inside a cell [47]. Small vibrations in the image target cause Doppler shifts in the wavelength reflected back to the source, a fact which has been exploited to extract salient frequencies in the terahertz band [48].…”

Micro Reactor Instrumentation and Control FY2019 Report

“…In a recently developed camera [46], each pixel is divided into four at 0°, 45°, 90° and 135° polarization. On the opposite end of the field-of-view spectrum, one team developed a self-calibrating fiber-optic endoscope the size of a few human hairs that can see structures inside a cell [47]. Small vibrations in the image target cause Doppler shifts in the wavelength reflected back to the source, a fact which has been exploited to extract salient frequencies in the terahertz band [48].…”

Micro Reactor Instrumentation and Control FY2019 Report