Researchers have long recognized the therapeutic potential of using magnetoelectrics ⎯ materials that can turn magnetic fields into electric fields ⎯ to stimulate neural tissue in a minimally invasive way and help treat neurological disorders or nerve damage. The problem, however, is that neurons have a hard time responding to the shape and frequency of […]
that mimics how a human brain with operates, so that s kind of the more silicone side of things, and in some cases you have actual biological cells that look not too dissimilar from a human or a pig sometimes they use that are just there to receive electrical signals just like a human brain cell does, and then the electrical signal controls other computers. joey: we ve shown all morning this list of companies that say they re doing this kind of creed to say we re going to do a self-check on a.i., amazon, google, meta, microsoft, openai. what are the kind of moral problems here in you take this a step forward and talk about growing biological matter that could be used as a brain for a computer, and now you have these companies saying we re going to do a safety code, could we get into a place where we were like with stem cells a few decades ago in. well, it s an interesting parallel because the regulatory system here in the united states hasn t been updated in a while
In an article published in the journal Nanomaterials, researchers presented a cost-efficient optimized cylindrical optical antenna with a wide field of view (FOV) and quick response time due to high-efficient nanomaterials.
, the team was able to restore a specific electrical signal seen in living eyes, the "b wave." It is the first b wave recording made from the central retina of postmortem human eyes.