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Technology

Old Blu-Ray Players Can Be Turned Into Microscopes (gizmodo.com) 20

YouTube's Doctor Volt repurposed a Blu-Ray drive, which are now easy to find on the cheap in the era of streaming content, to build a simple scanning laser microscope. Gizmodo reports: A couple of custom-designed and manufactured plastic parts were added to the mix to create a scanning bed for a sample that could move back in forth in one direction, while the laser itself shifted back and forth in the other. Unlike an optical microscope, where the entirely of an object is imaged at once, a scanning laser microscope takes light intensity measurements in increments, moving across an object in a grid and assembling a magnified image pixel by pixel. In this case, given the limitations of the Blu-Ray drive's spindle, which moves the sample being viewed back and forth, the image is assembled from 16,129 measurements (a 127x127 grid) and then scaled up to a 512x512 image.

A browser-based user interface written in Java allows focus adjustments and the scanning speed of the microscope to be modified, but at the slowest possible speed, the results are surprisingly good and recognizable. Certainly not comparable to what you'd get from lab equipment that costs tens of thousands of dollars, but for a re-purposed Blu-Ray drive you could get for less than $20 on eBay, this is an impressive hack.

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Old Blu-Ray Players Can Be Turned Into Microscopes

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  • Javascript not Java (Score:5, Informative)

    by Ecuador ( 740021 ) on Wednesday December 21, 2022 @07:13PM (#63149254) Homepage

    Gizmodo should really know the that Java and Javascript are unrelated, he made a Javascript web app to run the scanner. He scans an area a bit less than 1mmx1mm at 126x126 points (i.e. over 3200 dpi) which is not that impressive, but he states the limitation is that he used a coarse spindle to move on.

  • Not so amazing. I built a serviceable scanner from with a photodiode, a dot matrix printer and an Atari 800, in my bedroom in 1983. Programmed in Basic no less. Exact same concept.
    • Agreed. I had a similar project my junior year of high school, and the resolution was considerably better than this. BeauHD is on the left-hand peak of the Dunning-Kruger curve. By the time he's in his early to mid twenties, he'll probably be in "Desperation Valley" in the middle of the curve and post more "Stuff that matters." TAK.
    • by NFN_NLN ( 633283 )

      Big deal. It looks like nature beat your little project by 541 million years.

      "The first eyes appeared about 541 million years ago – at the very beginning of the Cambrian period when complex multicellular life really took off "

      https://www.newscientist.com/d... [newscientist.com]

      • God has a Boltzmann brain, so it's less impressive especially when you consider it took him billions of years to figure it out.

  • I read the title and honestly thought it said "microphone". Cue the mental record-scratch and me spending a few seconds furiously trying to guess how in the world that could be done before realizing my mistake.
    Haha!
  • In a post apocalyptic world where anti biotics are scarce, and we need to differentiate an illness between a bacterial infection and something else....
  • by Immerman ( 2627577 ) on Thursday December 22, 2022 @11:44AM (#63150506)

    A much easier way to build a more powerful and convenient laser microscope:
    1) bend a small eyelet into the end of a paperclip, just big enough to suspend a single drop of water
    2) shine laser through the droplet at a white wall

    You'll be able to watch all the microbes in the water swimming around in real time, with size limited by the distance to the wall, and continuous "resolution" limited by the diffraction limit of the the wavelength of the light used. A BlueRay's blue-violet laser should be almost as good as it gets in the visible spectrum - I don't think there's a convenient source for deep violet lasers.

    For size comparisons - a single blue-ray pit is 130x150nm, I would assume that's close to the detection limit of a scanning laser microscope using the same 405nm laser. Meanwhile bacteria are mostly in the .2-2um range (200-2,000nm), and while the diffraction ring distortions do obscure much of the detail, you can still easily make out the shapes of the much smaller organelles within them.

    Of course that only works for magnifying transparent objects, not opaque surfaces. And it's not nearly as gratuitously geeky as building your own scanning microscope.

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