I removed the protective glass from a CMOS image sensor, and used optical immersion oil to couple the bare image sensor to a 40X NA=1.3 microscope objective.
Fake f/0.33 Zeiss lens: https://petapixel.com/2013/08/06/carl-zeiss-super-q-gigantar-40mm-f0-33-the-fastest-lens-ever-made/
Camera and sensor that I used: https://www.ids-imaging.us/store_us/products/cameras/ui-5584le-rev-1-2.html
Conversion from f/# to NA: https://www.eckop.com/resources/optics/numerical-aperture-and-f-number/
More discussion about the f/#: https://wp.optics.arizona.edu/jpalmer/wp-content/uploads/sites/65/2018/11/The-f-stops-here.pdf
Support Applied Science on Patreon: https://www.patreon.com/c/AppliedScience
Hey Ben my name is Josh I own an avionics shop in Florida. I have a few radar magnetrons and other cool devices laying around that you might make use of, give me a call 541-631-1274 or email me at Joshua@avionicsworks.com
ReplyDeleteHi Ben, I very much enjoyed your video on iron nitride magnets. I have been working with this technology for a while and have developed a method of producing large quantities of this material.
ReplyDeleteThere's still much more to check out, like few people working with it.
Would like to stay in touch.
Ric Campbell
riccampbell21@gmail.com
202 276 4400
Hello Ben, I came across your videos on YouTube and noticed that you focus on science & electrical engineering video.
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