> Importantly for diagnostic and treatment purposes, the researchers found that the memory loss attributed to head injury was not a permanent pathological event driven by a neurodegenerative disease. Indeed, the researchers could reverse the amnesia [non-invasively with lasers]
TIL infrared light stimulates neuronal growth and blue and green inhibit.
Could an infrared [DLP] waveguide coherent beams?
FWIU, there are new two/multiple beam waveguiding methods for converging beyond occluding media.
Would a space-filling curve be a better way to quantize and thereby address specific neurons of brains, relative to loci; or is there that much functional specificity anyway?
Read and write to brains affects chain of custody, so we'll probably need total recall for something like this; and an immutable ledger that stores admissable header/footer dates for documents.
And what about neuroantiinflammatories and neurogeneration in the hippocampus, while you're imaging with that resolution?
FWIW the quoted researcher describes the laser technique used as being invasive. It likely involves an opened skull. How would waveguiding get through a thick totally-surrounding skull?
I have no idea about the physics so this will probably be a very stupid question but: could there be a way to use scattering passing through the skull bone to lower a high energy electron beam in very short wavelengths (over UV, closer to X-ray perhaps?) into the useful wavelength after it's passed/scattered through the bone layer?
TIL infrared light stimulates neuronal growth and blue and green inhibit.
Could an infrared [DLP] waveguide coherent beams?
FWIU, there are new two/multiple beam waveguiding methods for converging beyond occluding media.