It happens in photosynthesis.And, it appears Roger Penrose predicted it before I did, of the human brain. That's why he gets the big bucks.
That being said, I stand by my conviction, made in ignorance of his comments, that our minds are capable of quantum entanglement and that the brain has the capability of viewing through time similar to the way a wormhole would go through time.
However, the new work leads me to a more precise general description of what is going on.
All the successful work with quantum entanglement including the study of photosynthesis points to the wave nature of the photon and other particles as where the real magic happens.
This shouldn't be any surprise, if we realize that almost all of our advances in science have been dependent on wave mechanics.
More importantly, as humans, we are intimately connected with the physical world through wave information. There's no question that this has a direct bearing on our own interactions and also our social interactions. It's not hard to posit that complex wave activity is at the heart of most, if not all, of our macroscopic world. That we have been ignorant of this up until now is largely because our attention and most of our success in technology has been through the exploitation of the particle nature of mechanics and through digital information processing.
Personally, I can point to quite a few examples of wave mechanics and its significance to human perception: Holography creates three dimensional perception through wave mechanics. Another: A few years ago, the DX7 was a new form of music synthesizer that worked through wave modulation algorithms. It created fairly realistic sounds that were very difficult for non-engineers come up with. (Later, digital sampling came into prominence, and wave modulation synthesis took a back seat.)
It seems also that, tied to the whole process of entanglement, what we call chaos but what I would call fractal complexity is at work. Given that most of nature is fractal in composition, it seems to me that here is the real bridge between the quantum and the macroscopic world.
What is surprising is that we can get a handle on this level of complexity at all, but that's probably because of our success with scaling up complexity through computer reiteration.
Up until now, humans have been wave pattern perceivers. Now we are at the beginning of being wave pattern scientists. The pathway will be through set theory and number theory. In my opinion.
