Post by Pincho Paxton on Dec 6, 2013 15:20:58 GMT
I think that I have solved how to transfer information instantaneously. It works like this...
When you look at a distant star millions of light years away you see it instantly, but you see it as it looked before the light started on its journey. So you sort of see it in the past (WARNING! Don't think time travel!). Entangled photons could do the same thing, and constantly send a message to each other, but not propagated to an observer yet. To prevent the message from propagating all a photon has to do is spin in a stationary hole, and it has to scale down a bit so as not to pass the message to a local body. Between the two photons you have a constantly propagating wave through something like a wormhole but not quite the same. This wormhole is built from a grain structure, and so it is digitally stable by local forces, and passes a digital message spaced apart by holes. The instant message is already being passed before it is observed just like a star is passing its message before you observe it. But a sensor does not get the message because it is isolated by a scale down event... hence the cold storage of entanglement which is also a scale down event.
Ok so you can get instant messages, but they were passed along previously. They are hidden.
Pincho Paxton
When you look at a distant star millions of light years away you see it instantly, but you see it as it looked before the light started on its journey. So you sort of see it in the past (WARNING! Don't think time travel!). Entangled photons could do the same thing, and constantly send a message to each other, but not propagated to an observer yet. To prevent the message from propagating all a photon has to do is spin in a stationary hole, and it has to scale down a bit so as not to pass the message to a local body. Between the two photons you have a constantly propagating wave through something like a wormhole but not quite the same. This wormhole is built from a grain structure, and so it is digitally stable by local forces, and passes a digital message spaced apart by holes. The instant message is already being passed before it is observed just like a star is passing its message before you observe it. But a sensor does not get the message because it is isolated by a scale down event... hence the cold storage of entanglement which is also a scale down event.
Ok so you can get instant messages, but they were passed along previously. They are hidden.
Pincho Paxton