• @[email protected]
    link
    fedilink
    English
    1510 months ago

    Keep in mind that atmospheric interference would likely scatter the light enough to be ineffective

    • @[email protected]
      link
      fedilink
      English
      310 months ago

      But the photons made it through the atmosphere in the first place to be collected by the reflectors. Is there just not enough energy left to make it back out before cooling off?

      • @[email protected]
        link
        fedilink
        English
        410 months ago

        That’s the assumption, yes. But if the beams are coherent (like a laser) atmospheric interference would be a lot smaller.

        The real question is whether the light would be coherent, which I lean towards no on.

        • @nicoweio
          link
          English
          3
          edit-2
          10 months ago

          It’s not even coherent when the sun emits it. For one, it consists of a large range of wavelengths… And I doubt there’s a way to make light coherent at that order of magnitude.

    • @Spaceballstheusername
      link
      English
      210 months ago

      No that’s not true only about 30% of light energy scatters when traveling through the atmosphere to earth and certain wavelengths are almost completely absorbed in the way down. So on the way back up it should be a high portion make it to the satellite I would imagine 80%. Even worse case scenario 200 megawats shinning on a satellite would vaporize it almost instantly.