IMT – QUANTIZED SPACE-TIME
OVERVIEW
If Quantum Mechanics shows us anything, it’s that everything in nature has it’s origins at a quantum level, and that extend to spacetime is at the very least intuitive, and most likely, compelled.
In the previous chapter we look at the nature of the manifold and the unexpected nature of that revelation.
What we didn’t try to do is understand why there wouldn’t be time-space in the manifold and if the implications of this revelation reach further than the realm of anti-matter.
In this chapter we will look specifically at the quantum nature of time-space and why the manifold is devoid of it, in-fact, why it is intuitive that there is no time-space in the manifold.
LOOKING AT TIME-SPACE AT THE QUANTUM LEVEL
Time-Space is is evidently all around us, but where does it come from, was it created in the big bang, is it stretched out as the universe expands?
Until now it has been considered that space is where-ever space is, and all of the particles (and quantum particles) and indeed anything that exists is simply inside space.
The last piece to the IMT puzzle actually shows us that time-space exists at the quantum level, just like everything else, and, as a part of the existence of all quantum particles. Not space in which the particles exist (although this is semantically correct) but existing BECAUSE the quantum particles exist.
This changes the way we think about space-time, where we expect to find it and the impact to it when density of matter increases.
It also opens up questions about open space, questions that are most likely answered through vacuum energy and the existence of virtual particle that pop in and out of existence seemingly at will.
So far IMT has identified space-time where there is matter (we will circle back to this shortly) and the manifold, the dimension of anti-matter which has no time space. Now we look at where the space-time for the matter dimension comes from and why it’s the final piece to IMT.
BRING YOUR OWN SPACE
When you go camping you need to find a space that already exists in order to park your caravan, or pitch your tent. The universe as a whole needs somewhere for particles to be, but space can stretch and shrink depending
on present of particles and there needs to be a mechanism to facilitate this behaviour.
IMT proposes that quantum particles bring their own space with them, well, kind of. We have previously made the distinction between the dimension in which matter resides and another dimension in which anti-matter exists.
IMT proposes proposes that anti-matter resides in a manifold, and this is a nice construct to process the relationship between matter and anti-matter, but it is probably more accurate to recognize these as 2 parts of a whole, where there is a third field which provides space-time to the construct.
We have previously identified that there is no space-time in the manifold, and this already brings us a huge leap forward in understanding the impact of the space-time field on our construct. From this we can determine that the space-time field only impact matter fields and not anti-matter fields.
Recognizing this not only explains why there is no space-time in the manifold, something that before now seemed unintuitive, but now makes it make complete sense and is in no way out of place or counter-intuitive.
THE IMPACT OF QUANTUM SPACE-TIME
Quantum Time-Space allows for some interesting notions.
Firstly, if space-time is provided by quantum fields, then our space requires that each field connects to the field next to it.
This offers the opportunity to connect one field to an entirely different space-time field, allowing us to
connect one space-time to another space-time of our choice, creating a bridge. This realization also offers an alternative solution to our original conjecture that Quantum Entanglement is achieved through links with anti-matter, and instead, offers that the behaviour exhibited in quantum entanglement is due to the distance between 2 points zero.
Next, if we can bring 2 points in space together at the quantum level, the opportunities are opened up to technologies and materials that are currently out of our reach.
Remove the space between 2 particles and we have fusion, in-fact, we have cold fusion. Move the right particles together and we can form new materials not previously considered, or possible due to accurate or impossible placement of molecules.
Finally, a 3D printer that can create anything, out of anything, because placement is no longer an issue and we aren’t restricted by materials that we can melt, sinter or cure.