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Numerical aperture
Introduction to CODE V: Optics
Depth of Focus (DOF)
Super-Resolution Imaging by Dielectric Superlenses: Tio2 Metamaterial Superlens Versus Batio3 Superlens
To Determine the Numerical Aperture of a Given Optical Fiber
Numerical Aperture of a Plastic Optical Fiber
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Page 1 Magnification/Reduction Numerical Aperture
The F-Word in Optics
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Fiber Optics Fundamentals 1 Total Internal Reflection 1 Numerical Aperture 1 Depth of Focus 3 Contrast Versus EMA 4 Resolution 4
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Apertures, Stops, Pupils, and Windows; Single-Lens Camera
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The Phenomenon of Total Internal Reflection and Acceleration of Light in Fiber Optics
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Optical Theory Simplified: 9 Fundamentals to Becoming an Optical Genius APPLICATION NOTES
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An Equivalent F-Number for Light Field Systems: Light Efficiency, Signal-To-Noise Ratio, and Depth of Field Ivo Ihrke
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Superoscillatory Quartz Lens with Effective Numerical Aperture Greater Than One
The Importance of Numerical Aperture and Magnification in Digital Optical Microscopy
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Optimizing Numerical Aperture and Partial Coherence
Principles of First Order Optics Applied to Components of the Biotek
Skew Ray Tracing in a Step-Index Optical Fiber Using Geometric Algebra
Superlenses to Overcome the Diffraction Limit
2 Optics of the Human Eye
Cardinal Points of an Optical System--And Other Basic Facts
Extended Depth of Field for Fluorescence Microscopy
A Metalens with Near-Unity Numerical Aperture Ramón Paniagua-Domínguez1†*, Ye Feng Yu1†, Egor Khaidarov1, 2†, Sumin Choi1, Victor Leong1, Reuben M
Distribution of Light at and Near the Focus of High-Numerical-Aperture Objectives
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Scanning Superlens Microscopy for Non-Invasive Large Field-Of-View Visible Light Nanoscale Imaging
Cardinal Points
Exposure and Imaging
Lecture Notes on Geometrical Optics (02/18/14) 2.71/2.710 Introduction to Optics –Nick Fang
Numerical Aperture
Unit –VII Fiber Optics Engineering Physics
Geometrical Optics Lenses Example
The Equation of Number the Total Internal of Reflection Angles Occur in Optical Fiber
Super-Resolution Technological Readings Dec2014
Scanning Superlens Microscopy for Non-Invasive Large field-Of-View Visible Light Nanoscale Imaging
Resolution • Aberrations • the Point Spread Function • the Optical Transfer Function • Spatial Frequencies
Numerical Apertures of Light Microscope Objectives
Technical Memorandum 200 Fiber Optics: Multi-Mode Transmission
Fiber Optics
Superlensing Microscope Objective Lens
Exp. No. 3 Measuring Numerical Aperture of Optical Fiber