It?s known that
Quantum Mechanics rely on events and surely it causes events. One major
question in the understanding of Quantum Mechanics as perceived from the view
of the theory is if waves and quantum particles in fact also rely on events for
anything outside the wave to make a change. Is the Principal Force wave an event trigger and if so, how does it affect the quantum mechanics?
Is another event always required to release or change any state that has already occurred (been set)
within quantum physics? Does such an idea lead to the possibility of defining
quantum physics "all the way down to" a binary universe of (multilevel) bits or binary events?
After all, the idea of
analog behaviour and an analog value with infinite/many values and a resolution as a consequence introduces a major challenge to any idea of quantum
and atomic physics at the lowest level of these physics. How is the value
defined in the end? Most likely it's not an analog "thing"?
This, not to be
confused with "multi-state" quantum computing as being researched today, which
is on a relatively high level in this context.