Single-shot 3D incoherent imaging with diffuser endoscopy
Julian Lich, Tom Glosemeyer, Jürgen Czarske, Robert Kuschmierz
Abstract
Minimally invasive endoscopy offers a high potential for biomedical imaging applications. However, conventional fiberoptic endoscopes require lens systems which are not suitable for real-time 3D imaging. Instead, a diffuser is utilized for passively encoding incoherent 3D objects into 2D speckle patterns. Neural networks are employed for fast computational image reconstruction beyond the optical memory effect. In this paper, we demonstrate single-shot 3D incoherent fiber imaging with keyhole access at video rate. Applying the diffuser fiber endoscope for fluorescence imaging is promising for in vivo deep brain diagnostics with cellular resolution.
Topics & Concepts
Diffuser (optics)Shot (pellet)Single shotEndoscopyOne shotOpticsComputer scienceMedical physicsMedicinePhysicsRadiologyMaterials scienceEngineeringLight sourceMechanical engineeringMetallurgyPhotoacoustic and Ultrasonic ImagingRandom lasers and scattering mediaOptical Coherence Tomography Applications