Projection of 5 Dimensions into Four Is When the Octonionic Structure Kicks in as an Emergent Gravity Phenomenon

The quantum gravity problem that the notion of a quantum state, representing the structure of space-time at some instant, and the notion of the evolution of the state, does not get traction, since there are no real “instants”, is avoided by having initial octonionic geometry embedded in a larger, nonlinear (semi-classical) embedding structure. We detail some of what the quantum HUP is, in terms of deterministic 5-dimensional geometry and show that the projection of 5 dimensions into four is when the octonionic structure kicks in as an emergent gravity phenomenon. The example of such is to consider what would happen if there was an aftermath to a presumed initial causal discontinuous structure, after math being the generation of millions of Planck mass black holes, which would in themselves generate emergent gravity.

key result that we have, due to the earlier Pre-Octonionic space-time, a minimum time step.
In a word, this is the setup of the new physics, plus our resolution 1) In Pre-Octonionic (Pre-Planckian) Space-time there exist conditions for which we form an initial smallest time step, and that the Pre-Planckian Space-time is where we specify initially a modified HUP (Heisenberg Uncertainty principle).
2) In Octonionic (Planckian) Space-time, we recover QM and the usual HUP, but also, we have the benefits of keeping the minimum time step as to what is given from the Pre-Octonionic structure.
3) To get "instants" of time, we need to go beyond the standard model.After having said this, let us go to the construction of Octonionic non-commutative geometry.
4) We will conclude with how specific properties of octonion numbers algebra influence the structure and behavior of the early-cosmology model.What one of the referees reviewing this document did not realize is that the Octonionic space time closely conforms to the Standard Model of physics, as has been stated repeatedly, and that the Pre-Octonionic state is when the Standard Model of physics does not apply.i.e. the division line between the Pre-Octonionic Model and the Octonionic model directly correlates a transformation from Pre-Planckian physics to Planckian physics.5) We discuss the transformation from the Pre-Octonionic state to the Octonionic in terms of the following equations as given below.
6) The Transition from Pre-Octonionic to octonionic gravity and causal discontinuity issues will then be presented, as an embedding of quantum structures in a 5-dimensional deterministic setting.
Keep in mind one basic fact: If we restrict ourselves solely to Octonionic geometry, we are embedded deeply in only what the Standard Model of physics allows.We should though understand what is implied by the physics of the Octonionic structure and so the rest of this first discussion is devoted to it.First of all we bring up causal discontinuity and the Friedman equation.

What Leads to Casual Discontinuity in Scale Factor Evolution
The Friedmann equation [1] for the evolution of a scale factor ( ) suggests a non partially ordered set evolution of the scale factor with evolving time, thereby implying a causal discontinuity.
Here, we have that the coefficient, o, refers to the Planckian era, in general.
So in the initial phases of the big bang, with very large vacuum energy ≠ ∞ and ( ) Using this above creates the following as plausible estimates which can be reviewed as needed.For large but not infinite temperatures, and for

Start with
This leads to Planck's mass scaling, as alluded to by Barvinsky (2006) [5] ( ) We will be looking at the value of Equation ( 7), if ( ) Following Unruth [7] [8] write then, an uncertainty of metric tensor as, with the following inputs ( ) Then, the surviving version of Equation ( 8) and Equation ( 9) is, then, if This Equation ( 11) is such that we can extract, up to a point the HUP principle for uncertainty in time and energy, with one very large caveat added, namely if we use the fluid approximation of space-time [9] [10] ( ) Then by [9] ( ) Then, ( ) This behavior of the quantum uncertainty principle, as given will lead to the following inequalities.

Equation (7) to Equation (14) Are Connected with a Shift in Delegated Inequalities Given Below
This is assuming that one is having large, but non infinite temperatures which would not be in excess of, say 10^34 Kelvin.
We are also assuming a base line time unit of Items ( 1) and ( 2) about partially ordered sets above Equation (15) give us that we have C as a partially ordered set and the third item permits local finiteness.
This when combined with as a model for how the universe evolves via a scale factor equation permits violation of partial ordering.It is our contention that this will lead to the increase in entropy as the instanton is broken by Equation ( 15) above.
Another way to present this, and to get a tie into chaotic evolution is to make the following approximations to Equation (1) above: If Integrating leads to the following polynomial expression for We could go considerably higher in polynomial roots of Equation ( 16) above, depending upon the degree of accuracy we wished to obtain.This truncation so picked above is assuming a non infinite value of 1 u a − = , as well as a non zero value, and non infinite value for the Λ term.In doing so, we would obtain an extremely non standard evolution for the scale factor, assuming when we do so that Beginning with Mukhanov [11] setting his spatial dimension for a "particle" as r a ε + ∝ ≈ , we look at how to implement Equation ( 15) above.We have that if we write ( ) ( ) The transition from The following can entertained, i.e. if we set energy density dimensions here as 2 ρ [12], we use the following form for information [ ] ( ) # operations 1 10 This commences our treatment of the four dimensional discontinuity and the HUP, which we will then embed in a deterministic structure, in 5 dimensions [13]- [18].

Setting the HUP, and Discontinuity in a 5-Dimensional Setting, as Part of Embedding to the Octonionic State
This among other things is a fulfillment of the dream by Kaluza Klein [13] [14] [19], of sorts as far as how to unify Gravity and Electromagnetism in cosmology, but it has a much bigger cache than this, mainly as to understand the role of time, itself in quantum statistical ensembles, i.e. the idea of a deterministic large scale state, which would encompass quantum microstates in an ensemble within which the quantum microstates would be a way to analyze basic quantum thinking in terms of time dependence.In doing this, it also links itself to the question of why Schrodinger was so aghast at the idea of quantum jumping.
Let us now, briefly allude to the [13] [14] reference, namely: Start with the idea of an embedding of four-dimensional space-time in a 5 dimensional time interval.[13] [14], and realize its inter connections with [15] [16], and [17], where L = length of canonical metric in 5 Dimensional theory And then we present, the five moment a as given by Then, if ( ) One eventually, as given by [13] obtains the Heisenberg type of relations that In this case, looking at a rewrite of the time component of Equation ( 24) to read, approximately as [18] With the result that ( ) We urge the readers to consult [13] [14] [15] [16] [17], as well as [18] for what we are implying.Note also in [17] that Klein does a quantum mechanical treatment, which is in a sense has some elements of the later work on black body radiation problem.
i.e. what we have done is to say that Equation (26) establishes that the HUP is embedded within a deterministic structure in 5-dimensional Kaluza-Klein theory [13].
We argue that Equation (26) which is embedding the HUP, and in effect, time within a deterministic 5-dimensional structure, as given by [13] is in the end no different from the radical supposition given by Schrodinger as to quantum statistics, which was argued over in Solvay, as seen in [18] that the modeling of black body style quantum statistics, for a macro system was in a state which did not have an explicitly time dependent dynamic, i.e. as given in [19] Having said this, and including in the description of embedding of the HUP in 4 space in quasi deterministic reasoning for 5-dimensions, we will the make the following assertions as to what this is saying about Octontonionic commutation relationships.First a pre-quantum space time state, in which, in commutation relations [20] (Crowell, 2005) in the pre Octionic space time regime no approach to QM commutations is possible as seen by.

( )
Planck , , and does not In the situation when we approach quantum "octonionic gravity applicable" geometry, Equation ( 29) becomes This commutation behavior should not be seen to contravene the structures given in [21] [22].
Equation ( 30) is such that even if one is in flat Euclidian space, and i = j, then if the phase transition from Pre Octonionic to Octonionic has occurred, and Equation (30) is key to what we say next here.i.e.The point is this, i.e. by [19] ( ) Put this set of values of average momentum The last line of Equation (32) will be crucial to what we say next ( ) In doing this, we will make the final, identification i.e.

(
) ( ) i.e. satisfying Equation (33) will enable to help us to consider the causal bar-Journal of High Energy Physics, Gravitation and Cosmology rier situation as given in Equation (34) and this is the linkage between the idea of a causal discontinuity, Octonionic geometry and non commutativity, and the onset of new physics.
We claim that the details of reconciling Equation (33) and Equation (34) and the problem of finding a suitable time step, t δ which will be solidly linked to the embedding of the HUP, as is given in Equation ( 24) of our manuscript.

Conclusion. What Equation (33) and Equation (34) Say about New Physics
What we are being told, as to the relative position of the co-ordinates as to Pre-Planckian, to Planckian physics, at a causal barrier situation, just before the expansion of the Universe.i.e. decoding the information in Equation (33) and Equation (34) will be crucial to all that.
The main point in decoding Equation (33) and Equation (34) will be in the assembling of a suitable value for the minimum time step, i.e. what we suspect is that an optimal t δ will be heavily dependent upon making sense of both Equ- ation (33) and Equation (34) with , t δ a bi-product of the embedding proce- dures given in Equation (24) and Equation ( 25) starting with the procedures given in Equation ( 21) above.
Secondly, if we wish to go to the idea of many mini black holes, initially, say of mass one Plank mass each, initially, we can look at

8 )
Journal of High Energy Physics, Gravitation and CosmologyIf we use the following, from the Roberson-Walker metric.[6][7][8] This would corres- pond to the following picture.Have ε ∆  be the net energy density inside an instanton, with a boundary region of 2 soliton (instanton) we can assume is in a Pre Planckian space-time.

First, we will be examining what happens if 0 ( 28 )
Journal of High Energy Physics, Gravitation and Cosmology ) is relevant right after a presumed shift after a causal discontinuity.And it would be  then x = y for x and y in a partially ordered set C; 3) For any pair of fixed elements x and z of elements in C, the set [2] a discrete equation model of Equation (2) leads to Dr. Dowker's paper on causal sets[2]which requires the following ordering with a relation  , where we assume that initial relic space time is replaced by an assembly of discrete