How a Minimum Time Step and Formation of Initial Causal Structure in Space-Time May Void the Penrose Singularity Theorem, as in Hawkings and Ellis’s 1973 Write-Ups

Using a root finder procedure to obtain t ∆ we use an inflaton value due to use of a scale factor min ~ a a t γ if we furthermore use φ⋅ From use of the inflaton, we initiate a procedure for a minimum scale factor, which would entail the for a sufficiently well placed frequency ω. If the Non Linear Electrodynamics procedure of Camara et al. of General relativity was used, plus the modified Heisenberg Uncertainty principle, of Beckwith, and others, i.e. ( ( ⋅ ⋅    we come due to a sufficiently high frequency 1 ~ i a ± ⋅ + implies a violation of the Penrose singularity theorem, i.e. Today Λ = Λ . If this is not true, i.e. that the initial Today Λ Λ  , then will min # 1 ~ 2 i a ± ⋅ + for


Keywords
Inflaton Physics, Causal Structure, Non Linear Electrodynamics

Framing the Initial Inquiry
Here, the idea would be, to make the following equivalence, namely look at, [1] as well as our own derivation We furthermore, make the assumption of a minimum radius of [2] [3] initial Planck We will initially be assuming that the cosmological constant remains at a constant value, as it is today, and does not change over time (which is the situation given in [4]) as given by Park et al., where the initial value of the cosmological constant could be much higher initially.
This Equation (1) will be put as the minimum value of r, where we have in this situation [5] [6] And if M is the total space-time energy mass, for initial condition [5] [6] where initial gravitoñ~i nitial graviton count S n (4) M then will be defined by the mass of a massive graviton [7], times, the graviton count, as given in (4) This will lead to ( ) whereas if Today Λ Λ  , Equation (6) likely will not hold, and we also state that Equation (6) is a violation of the Penrose singularity theorem as written up in [8], whereas we also have that we are using the Padmanbhan results as given in [9] [10] [11] to the effect that we are employing While adhering to a potential in line with A. W. Beckwith Journal of High Energy Physics, Gravitation and Cosmology We next then go to the results given in [9], which is a publication in JHEPGC by the author, in 2017.

Examination of the Minimum Time Step, in Pre-Planckian Space-Time as a Root of a Polynomial Equation
We initiate our work, citing [9] to the effect that we have a polynomial equation for the formation of a root finding procedure for t From here, we then cited, in [9], using [6] a criteria as to formation of entropy, i.e. If Λ is an invariant cosmological "constant" and if Equation (10) holds, we can use the existence of nonzero initial entropy as the formation point of an arrow of time.
This leads to the following, namely in [9] we make our treatment of the existence of causal structure, as given by writing its emergence as contingent upon The rest of this article will be contingent upon making the following assumptions. FTR That we will drop most of the terms in the expansion of Equation (9) and instead of a huge infinite expansion of terms, pick instead using This is assuming here that the terms in are extremely small, which permits us to come up with a quadratic expression of the term t ∆ which is of course useful as to what we do next, i.e.
If we make use of the Peebles relationship [12] of what would be occurring just before and at the start of expansion of the universe, i.e. the causal structure as given by [9] as, using the Keiffer result of [13]

Consequences, in Terms of the Minimum Scale Factor
We then use the Peebles result [12] for the strain of space-time at the START of expansion result of ( ) The key result is that we have a quadratic expression for the t ∆ term, as indicated by (12) with the result that there is a solvable expression in terms of t ∆ , so that then, we can take the square of the terms of Equation (14) with using the expression of Equation (7) above, in order to obtain after using an expansion of Ln x, (if 0 < x < 2) from [14] to get, then, after algebra This is also reflecting the ideas given in reference [15] which has similar ideas which are similar to our Equation (15) above.

So What If the Denominator of Equation (15) Is Less Than Zero?
If that happens, due to a very high frequency value for gravitational waves, and a 2) There is some past-directed unit timelike vector W at a point p, and a positive constant b, such that if V is the Unit tangent factor to the past directed timelike geodesic through p, then on each geodesic the expansion ; a a V θ ≡ of these geodesics becomes less than −3c/p, within a distance b/c from p, where a a c W V = − , i.e. then there is a past incomplete non space-like geodesic through p.
One does not have a curve violating the causality conditions as given as an assertion by Hawkings and Ellis, 1973. i.e. there is, if this occurs at the causal boundary, instead, a bifurcation point at the surface of the causal set, with real and imaginary components, but the incompleteness of the non space geodesic through a point p, if it is on the surface of the causal surface, as defined by Equation (13) is not due to a point p-. It is well known that certain Kerr black hole models, as in page 465 of Ohanian and Ruffini [14] involve the use of ~0 tt g for their horizon surfaces and the definition of a plate disc singularity surface but we are instead employing, We argue that then, there is no reason for assigning a singularity, but it would in line with [4], i.e. assigning an almost infinite value for the initial cosmological constant.
Different variants of the above can be imagined, and of course one should be considering [16] in the reformulation of the Causal structure boundary idea. In addition the points brought up as to [17] to [21] of the nonlinear electrodynamics cosmology should be utilized as a refinement as to the Hubble parameter as outlined in Equation (5) above.

Otonion Geometry and Non-Commutativity as a Future Project to Be Combined with Our Present Inquiry?
We should close with one reference as to the Octonionic geometry program as Journal of High Energy Physics, Gravitation and Cosmology follows. We may be seeing instead of just our roof finder iterations, as outlined above, an exploration into non commutative geometry. This is what I am referring to, and it is from [22].
The change in geometry is occurring when we have first a pre quantum space time state, in which, in commutation relations [23] (Crowell, 2005) in the pre Octonion space time regime no approach to QM commutations is possible as seen by.

( )
Planck , , and does not Equation (18) is such that even if one is in flat Euclidian space, and i = j, then In the situation when we approach quantum "octonion gravity applicable" geometry, Equation (18) End of quote We assert that the issues as of Equation (18) to Equation (20) if done in higher dimensional analogues, taking into account non commutative initial geometry as outlined in [23] in time, if twinned directly with an analysis of Equation (15) to Equation (17) may in time help us delineate the future of space time research in the early universe.