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Lenses
Lenses
Three-dimensional nonlinear optical endoscopy
Biomedical Engineering / Visualization / Nonlinear Optics / Nonlinear dynamics / Cancer / Optical coherence tomography / Microelectromechanical systems / Optical Imaging / Biomedical Optics / Three Dimensional Imaging / Lenses / Optical physics / Digestive System / Photonic Crystal Fibers / Optometry and Ophthalmology / Image Enhancement / Three Dimensional / Reproducibility of Results / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis / Optical coherence tomography / Microelectromechanical systems / Optical Imaging / Biomedical Optics / Three Dimensional Imaging / Lenses / Optical physics / Digestive System / Photonic Crystal Fibers / Optometry and Ophthalmology / Image Enhancement / Three Dimensional / Reproducibility of Results / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis
Adaptive optics multiphoton microscopy to study ex vivo ocular tissues
Biomedical Engineering / Microscopy / Multiphoton Microscopy / Cornea / Adaptive Optics / Biomedical Optics / Humans / Animals / Second Harmonic Generation / Feedback / Lenses / Optical physics / Optometry and Ophthalmology / Image Enhancement / Swine / Equipment Design / Equipment Failure Analysis / Biomedical Optics / Humans / Animals / Second Harmonic Generation / Feedback / Lenses / Optical physics / Optometry and Ophthalmology / Image Enhancement / Swine / Equipment Design / Equipment Failure Analysis
Adaptive optics multiphoton microscopy to study ex vivo ocular tissues
Biomedical Engineering / Cornea / Biomedical Optics / Humans / Animals / Feedback / Lenses / Optical physics / Optometry and Ophthalmology / Image Enhancement / Swine / Equipment Design / Equipment Failure Analysis / Feedback / Lenses / Optical physics / Optometry and Ophthalmology / Image Enhancement / Swine / Equipment Design / Equipment Failure Analysis
Compact, transmissive two-dimensional spatial disperser design with application in simultaneous endoscopic imaging and laser microsurgery
Mechanical Engineering / Microsurgery / Systems Integration / Computer assisted orthopaedic surgery / Lighting / Light / Lenses / Applied Optics / Optical physics / Image Enhancement / Miniaturization / Laser Therapy / Equipment Design / Equipment Failure Analysis / Electrical And Electronic Engineering / Refractometry / Endoscopes / Light / Lenses / Applied Optics / Optical physics / Image Enhancement / Miniaturization / Laser Therapy / Equipment Design / Equipment Failure Analysis / Electrical And Electronic Engineering / Refractometry / Endoscopes
Chaotic behavior in an algorithm to escape from poor local minima in lens design
Algorithms / Nonlinear dynamics / Computer Aided Design / System Design / Computer Simulation / Light / Lenses / Optical physics / Local minima / Theoretical Models / Image Enhancement / Reproducibility of Results / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis / Electrical And Electronic Engineering / Least Square Method / Geometric Optics / Computational Method / Light / Lenses / Optical physics / Local minima / Theoretical Models / Image Enhancement / Reproducibility of Results / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis / Electrical And Electronic Engineering / Least Square Method / Geometric Optics / Computational Method
Vortex retarders produced from photo-aligned liquid crystal polymers
Algorithms / Photochemistry / Polymers / Light / Lenses / Optical physics / Optics and Photonics / Reproducibility of Results / Mueller Matrix Polarimetry / Point Spread Function / Equipment Design / Birefringence / Electrical And Electronic Engineering / Refractometry / Optical physics / Optics and Photonics / Reproducibility of Results / Mueller Matrix Polarimetry / Point Spread Function / Equipment Design / Birefringence / Electrical And Electronic Engineering / Refractometry
Three-dimensional nonlinear optical endoscopy
Biomedical Engineering / Visualization / Nonlinear Optics / Nonlinear dynamics / Cancer / Optical coherence tomography / Microelectromechanical systems / Optical Imaging / Biomedical Optics / Three Dimensional Imaging / Lenses / Optical physics / Digestive System / Photonic Crystal Fibers / Optometry and Ophthalmology / Image Enhancement / Three Dimensional / Reproducibility of Results / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis / Optical coherence tomography / Microelectromechanical systems / Optical Imaging / Biomedical Optics / Three Dimensional Imaging / Lenses / Optical physics / Digestive System / Photonic Crystal Fibers / Optometry and Ophthalmology / Image Enhancement / Three Dimensional / Reproducibility of Results / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis
Strehl ratios characterizing optical elements designed for presbyopia compensation
Computer Aided Design / Humans / Lenses / Optical physics / Reproducibility of Results / Eyeglasses / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis / Presbyopia / Electrical And Electronic Engineering / Eyeglasses / Sensitivity and Specificity / Equipment Design / Equipment Failure Analysis / Presbyopia / Electrical And Electronic Engineering
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