That's not what quantum "tunneling" is. It is the ability of a particle to have an interaction beyond the limit of a supposed "barrier," as though it is "tunneling" through the barrier. What really happens is that the wave function for the particle is attenuated by the barrier, but not entirely eliminated, so interactions beyond the barrier are still possible. I believe this is part of how semiconductors work as transistors.
There is no sending information "back" through time. The quantum tunneling effects are not really a process, but a way for particles to be in places they were not supposed to be. They didn't "get there." They were, in a quantum-mechanical sense, already there to begin with.
A good title for a quantum-mechanics mystery movie would be "Being There."
Wasn't there a theory about Q using quantum tech to send messages back?
the messages go both ways. and you are indeed correct. quantum tunneling is the method for transferring information across time.
That's not what quantum "tunneling" is. It is the ability of a particle to have an interaction beyond the limit of a supposed "barrier," as though it is "tunneling" through the barrier. What really happens is that the wave function for the particle is attenuated by the barrier, but not entirely eliminated, so interactions beyond the barrier are still possible. I believe this is part of how semiconductors work as transistors.
I did not state what quantum tunneling is? thanks for googling it for me though. I stated what one of its applications is.
There is no sending information "back" through time. The quantum tunneling effects are not really a process, but a way for particles to be in places they were not supposed to be. They didn't "get there." They were, in a quantum-mechanical sense, already there to begin with.
A good title for a quantum-mechanics mystery movie would be "Being There."