In principle that is a good idea and nice digital version of analog pulse shaping. However, the pulses have a very distinctive shape (not visible in the blog post picture, but here in figure 7/9:…
Let me just point here again to the project entries on Kitspace.org: https://kitspace.org/boards/github.com/ozel/diy_particle_det... https://kitspace.org/boards/github.com/ozel/diy_particle_det... Yes, this project is…
also its website: http://www.cosmicwatch.lns.mit.edu In terms of difficulty to build and operate it, I would rate the discussed projects such: cloud chamber < DIY particle detector (electron-detector variant) < DIY…
Unfortunately, that video contained some flawed conclusions. I had left a comment back then. Alpha particles from natural sources like an uranium stone penetrate 50 micrometers of solid hard material at most. Let's give…
In principle that is a good idea and nice digital version of analog pulse shaping. However, the pulses have a very distinctive shape (not visible in the blog post picture, but here in figure 7/9:…
Let me just point here again to the project entries on Kitspace.org: https://kitspace.org/boards/github.com/ozel/diy_particle_det... https://kitspace.org/boards/github.com/ozel/diy_particle_det... Yes, this project is…
also its website: http://www.cosmicwatch.lns.mit.edu In terms of difficulty to build and operate it, I would rate the discussed projects such: cloud chamber < DIY particle detector (electron-detector variant) < DIY…
Unfortunately, that video contained some flawed conclusions. I had left a comment back then. Alpha particles from natural sources like an uranium stone penetrate 50 micrometers of solid hard material at most. Let's give…