You could be right. Quantum tunneling is not what we know as tunneling.
It is only a label.
But forward/backward quantum momentum reverses in a Lorentz boost without any interaction
with the particle or its angular momentum.
So however the particle is getting from one place to...
Sorry for the confusion. Let me try again.
As suggested in Maldacena's article in Scientific American, entangled black holes may connect two different locations in
our universe through a wormhole.
This concept might also be applicable to quantum particles as quantum entanglement was the...
I hope you will consider Maldacena's article on entangled black holes in the November 2016 Scientific American.
His theory is based on entangled particles and he suggests entangled black holes could be connected by
a wormhole, and thus could interact to some extent.
His...
Well, how do entangled particles interact instantaneously? There appears to be some method of transmission. And if that interaction takes zero time,
then there may be zero distance between the particles, from the particles frame of reference. That could be a tunnel or a wormhole or some...
Perhaps I am confused (certainly a definite possibility). My question related to the way tunneling and quantum entanglement may share
a common attribute of reversed right/left angular momentum . Maybe they don't, but if they do, this may be from a similar source,
namely that the two effects...
Thanks for your explanation.
One question. Whatever is happening in quantum tunneling that creates the reversal in apparent angular momentum
is this similar to the opposing right/left angular momentum in entangled particles?
Is it possible that entangled particles are connected by the same...
Thanks for your response. Could you clarify one point?
The apparent reversal is of the particle's spin relative to its direction of motion.
It's just a consequence of changing the observer's motion relative to the object:
Wouldn't the effect occur independent of the observer's motion? If...
As I understand it, a relativistic reversal can occur in a Lorentz
boost. A particle's forward angular momentum can become backward
angular momentum, if the observer accelerates sufficiently. But the
particle and its angular momentum are unchanged. The only change
is in the observer’s frame...
:
Well, my understanding (like the pulp and StevieTNZ) is that the point of the Schrodinger's Cat experiment was to tie a micro event (such as the death of a cat) to a quantum event, and so the complexity of the biological event is irrelevant. Thus, the probability theory of QM does imply...
In the thought experiment known as Schrodinger's cat a cat is placed in a sealed box, and its life or death is tied to an uncertain quantum event such as radioactive decay. If the radioactive particle decays, the cat dies. If not, nothing happens.
According to probability collapse QM, as...