Sunday 21 June 2009

Quantum Entanglement and a new quantum theory



Video on Quantum Entanglement.

~



Quantum wave particle function
~

In this diagram light expands out from its centre in a light sphere. The polarization of the photons is set at the creation of each quantized wave front. This will remain the same however great the distance between them becomes because polarization will be the same for the whole surface of the light sphere.

~




The wave function of quantum physics represents the time continuum at the most fundamental level. Every object in our Universe will create its own time and space by collapsing the light waves of electromagnetic radiation into new quantum particles that will have their own position in space and time.

~





Because it is impossible to achieve absolute zero everything is radiating electromagnetic radiation continuously. From each photon electron coupling EMR will radiates out in a light sphere of quantized wave fronts. The Universe is therefore in perpetual self- sustaining motion and the observer will feel this motion as the forward momentum of time.
~










Light sphere of quantized wave fronts each wave front will be quantized at the level of the Planck Constant. It is these wave fronts that continuously creates Einstein's curvature of spacetime.
~


In this diagrams the atoms are creating there own time and space in a chain reaction of photon electron couplings that is called stimulated emission.
~



If the observer does not collapse the wave function into a moment of time the quantum particle will only have the moment of its own expanding wave function.
~


Every object in our Universe will create its own time and space by collapsing the light waves of electromagnetic radiation into new quantum particles that will have their own position in space and time.

~

The quantum particle will radiate its own wave function and this will create the Uncertainty Principle of quantum physics. This uncertainty principle is the same probability that the observer will have in any future event.
~


No comments:

Post a Comment

Thanks for your kind comments, critical comments are also welcome. Be sure to check back in a couple of days to see my response back to your comment, thanks again.