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- ...hs of 25, 50, 75, 100, 125, 150, 175, and 200 mm. It is best to mount most optics in short (0.5" or 0.3") lens tubes. It is acceptable to mount a lens betwee ...st have had difficulty with the ''Three of These Things'' game. Verify all optics before you use them by measuring the focal length with a ruler.9 KB (1,408 words) - 19:35, 16 September 2013
- * [[Geometrical optics and ray tracing]] * [[Physical optics and resolution]]23 KB (3,758 words) - 22:45, 12 January 2017
- ...rorheology with optical tweezers." ''Journal of Optics A: Pure and Applied Optics'' '''9''', pp. S103-S112 (2007).]13 KB (1,794 words) - 17:53, 3 December 2012
- ==Optics== List of optics pages:6 KB (738 words) - 18:50, 31 January 2013
- ==Aligning the optics==4 KB (645 words) - 22:09, 3 May 2013
- In this part of the lab, you will use a 5mW, 532 nm laser with focusing optics. You must attend the safety lecture before you work with the laser. See an #* For maximum flexibility in positioning, removing, and reinstalling optics, use 3 cage rods instead of 4. Use a cage plate (CP02) for each lens. Mount20 KB (3,262 words) - 22:06, 14 August 2017
- #REDIRECT [[Geometrical optics and ray tracing]]48 B (6 words) - 00:58, 4 September 2013
- ...er than the wavelength of the light. Ray optics (also called ''geometrical optics'') represents a light field as a bunch of arrows that point in the directio ... an optical system like resolution. [[Optical Microscopy Part 1c: Physical Optics and Limits of Detection|Diffraction and resolution]] and [[Optical aberrati23 KB (3,769 words) - 01:20, 27 August 2019
- * [[Geometrical optics and ray tracing]] * [[Physical optics and resolution]]534 B (60 words) - 12:49, 5 September 2018
- #REDIRECT [[Optical Microscopy Part 1b: Geometrical Optics and Ray Tracing]]76 B (10 words) - 13:37, 20 August 2013
- ...s and lenses, we can add the concepts of wave optics, also dubbed physical optics, and thereby grasp phenomena including interferences, diffraction, and pola ...mits resolution to ~ 0.2 μm (see [[Optical Microscopy Part 1c: Physical Optics and Limits of Detection#Diffraction|above]]).15 KB (2,262 words) - 14:22, 6 September 2018
- #REDIRECT [[Resource list: Optics]]35 B (4 words) - 14:33, 23 August 2013
- You are going to build a microscope next week. The goal of the Optics Bootcamp exercise is to make that seem like a less intimidating task. The b ..., ray tracing, and some worked-out ray tracing examples, see [[Geometrical optics and ray tracing|this page]].28 KB (4,857 words) - 20:09, 31 July 2017
- ...any called [http://www.thorlabs.com Thorlabs] manufactures the most of the optics and optical mounts you will use. The lab manuals frequently refer to compon3 KB (441 words) - 14:49, 25 August 2019
- ...ken into consideration, and as imaging conditions depart from the Gaussian optics approximations that have framed our representations so far, optical aberrat4 KB (516 words) - 18:44, 16 September 2015
- ===Module 1: Optics & Microscopy=== * [[Assignment 1, Part 2: Optics bootcamp|Part 2: Optics bootcamp]]8 KB (887 words) - 20:47, 16 October 2020
- Back to [[Geometrical optics and ray tracing]]2 KB (359 words) - 17:09, 12 August 2015
- Back to [[Geometrical optics and ray tracing]]1 KB (206 words) - 17:09, 12 August 2015
- Back to [[Geometrical optics and ray tracing]]3 KB (397 words) - 17:10, 12 August 2015
- ...'' (also called''geometrical optics'', ''geometric optics'', or ''Gaussian optics'') is a simple set or rules that allows you to determine the location of im10 KB (1,581 words) - 03:12, 5 October 2015
