![Minimizing Spherical Aberration: Make the Right Lens Choice for Your Imaging System Teledyne Lumenera Minimizing Spherical Aberration: Make the Right Lens Choice for Your Imaging System Teledyne Lumenera](https://www.lumenera.com/media/wysiwyg/images/assets/Figure-1-Spherical-Abberation.png)
Minimizing Spherical Aberration: Make the Right Lens Choice for Your Imaging System Teledyne Lumenera
![7artisans 35mm F2.0 Camera Lens Large Aperture Paraxial Lens For Leica M Mount Cameras M240 M3 M5 M6 M7 M8 M9 M9p M10 - Photo Studio Kits - AliExpress 7artisans 35mm F2.0 Camera Lens Large Aperture Paraxial Lens For Leica M Mount Cameras M240 M3 M5 M6 M7 M8 M9 M9p M10 - Photo Studio Kits - AliExpress](https://ae01.alicdn.com/kf/Hb8c2ddc17fca477a89394c72c98abe5aW/7artisans-35mm-f2-0-Camera-Lens-Large-Aperture-paraxial-Lens-for-Leica-M-mount-Cameras-M240.png_.webp)
7artisans 35mm F2.0 Camera Lens Large Aperture Paraxial Lens For Leica M Mount Cameras M240 M3 M5 M6 M7 M8 M9 M9p M10 - Photo Studio Kits - AliExpress
![In purely NSC mode: How to get a diffraction pattern from an NSC Paraxial Lens, Detector Rectangle and Coherent Irradiation? | Zemax Community In purely NSC mode: How to get a diffraction pattern from an NSC Paraxial Lens, Detector Rectangle and Coherent Irradiation? | Zemax Community](https://uploads-us-west-2.insided.com/zemax-en/attachment/ec39f66d-9956-4318-9dd5-ec7110b7ce5a.png)
In purely NSC mode: How to get a diffraction pattern from an NSC Paraxial Lens, Detector Rectangle and Coherent Irradiation? | Zemax Community
![If the focal length of a lens for marginal rays and paraxial rays are $12.5cm$ and $13cm$ respectively, the longitudinal spherical aberration is-(A) $0.25cm$(B) $0.5cm$(C) $0.75cm$(D) $1cm$ If the focal length of a lens for marginal rays and paraxial rays are $12.5cm$ and $13cm$ respectively, the longitudinal spherical aberration is-(A) $0.25cm$(B) $0.5cm$(C) $0.75cm$(D) $1cm$](https://www.vedantu.com/question-sets/9b65faff-d5e6-4795-b185-71bb6f6855411076569620913967030.png)
If the focal length of a lens for marginal rays and paraxial rays are $12.5cm$ and $13cm$ respectively, the longitudinal spherical aberration is-(A) $0.25cm$(B) $0.5cm$(C) $0.75cm$(D) $1cm$
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