Received 23 June 2015; accepted 6 July 2015; published 9 July 2015

ABSTRACT

In this paper we outline a non-perturbative quantum relativity theory. Subsequently an actual design of a nanotech energy reactor is based on spacetime vacuum fluctuation of the said quantum relativity theory. Using a compact heap of Fullerene nano particle moduli of a nano matrix device we propose that by maximizing the Casimir forces between these particles as a desirable effect, we can achieve a gradual rather than a sudden implosion pressure. We expect that this will result in a mini holographic universe from which energy can be extracted in a way to constitute a nano energy reactor and function effectively on a hybrid principle somewhere between a Casimir effect and a cold fusion process based on the fusion algebra of a highly structured golden ring quantum field theory. The present theory depends upon many concepts and results, in particular J. Schwinger’s source theory as well as the modern theory of quantum sets, nonlinear dynamics, chaos and chaotic fractals.

Keywords:

Quantum Relativity, Casimir Reactor, Dark Energy, Nano Spacetime Energy Reactor, Chaos and Fractals, Schwinger Source Theory, Fusion Algebra, Quantum Sets

1. Introduction

The author of the present paper feels strongly that he should make it abundantly clear from the outset that all the ideas presented here are influenced in no minor way by J. Schwinger’s source theory as well as his views on cold fusion and everything else follow from there (see Figures 1-3 and the comments therein). Here we start with E-infinity theory [1] -[4] which is based on transfinite set theory [4] [5] as well as substantial amounts of

(circumference) represents the empty set which in turn represents the quantum wave [1] [17] . This wave is then surrounded by an infinite hierarchy of smaller (fractal) spheres (surfaces), which may be seen as the emptier set,

i.e. the surface of the empty set quantum wave. Remarkably the average set of all zero and empty sets is an expectation value

equal. In other words, is our quantum spacetime, which is the cobordism of the quantum wave, which in

turn is the cobordism of the quantum particle, floating and propagating with the help of its wave in our Cantorian E-infinity spacetime [1] [2] [10] [11] . It is likewise remarkable that is simultaneously equal to the topological Casimir force as well as the topological mass of the ordinary energy of spacetime. Thus all matter and energy manifestations in our cosmos are essentially a manifestation of the zero point energy of the vacuum of spacetime. To obtain Einstein maximal energy density we just need to firstly find the topological energy density by adding Kaluza-Klein D = 5 to of the spacetime vacuum and find the fractal Kaluza-Klein dimension 5 + then multiply this with the average Cantorian interval speed of light c =

squared. The result is. Inserting in Newton’s kinetic energy one finds

exactly as should be. The preceding explanation amounts to a paradigm shift in physics where the totally empty vacuum of spacetime is taken as fundamental and everything else is derivable from it. To prove this point was a dream of Serbian American inventor N. Tesla who died in 1943 as well as Soviet physicist A. Zakharov. In fact in his later years Nobel Laureate J. Schwinger was a champion of cold fusion [12] which comes very near to our present concept of a Casimir-nano energy reactor [10] [11] . We also stress that we are making tacit use of the Banach-Tarski decomposition theorem as a Schwinger-like source [18] [21] [34] .

theorems and techniques borrowed from K-theory [6] , E-infinity mathematical theory [7] , sub-factors, knot theory, von Neumann continuous geometry [4] and in particular A. Conne’s noncommutative geometry [8] . On the whole, we hold the view that all forms of energy and matter represented by Einstein’s iconic equation E = mc² are nothing but the zero point energy fluctuations of the real vacuum of spacetime [9] - [11] . In other words, in our dialectic philosophy we have place for a non-materialistic matter described precisely by setting theoretical

operations [5] [8] [10] . We habitually call this for us esoteric matter, spacetime but it can be called more mathematically, an infinite dimensional and hierarchal empty set [4] - [11] . The objective of the present paper is to show how we can extract energy from this spacetime by building a nano reactor that in a sense combines Casimir effect [10] [11] with cold fusion [12] [13] . We should stress from the outset that the literature upon which the present work being based is vast and our references [1] - [20] are the minimum required for a concise presentation. In addition we give in Appendix I details of how to construct our Cantorian quantum spacetime. We draw the attention of the Reader to the fact that our Banach-Tarski sphere decomposition (Figure 1) plays in the present theory a similar role to Schwinger’s source (Figure 2) in contrast to Feynman’s diagrammatic methodology (see Figure 3) [18] [21] .

2. The Fractal inside the Complex

In some deep sense E-infinity success in dealing with fundamental problems in high energy quantum physics and cosmology is based upon replacing complex numbers and the associated quantum probability amplitude by highly structured golden mean ring based new probability [1] [4] [5] . In this new theory which starts with a one dimensional Mauldin-Williams random Cantor point, i.e. a Cantorian [4] is a topological probability given by the inverse ratio of the Hausdorff dimension of the one dimensional continuum, i.e. its topological Menger- Urysohn dimension D_T = 1 to the Hausdorff dimension of the said Cantor set, i.e. D_H = where [4] . In other words and since combinatorial as well as geometrical probability fails in point set geometry to avoid results involving infinity and zero, we have only the following topological probability measure left:

(1)

On the other hand what ever is left from the D_T = 1 one-dimensional continuum after subtracting the random zero measure Cantor set Hausdorff dimension D_H = is a fat Cantor set with measure and Hausdorff dimension equal [4] [11] . Such a Hausdorff dimension uniquely defines the empty set which following von Neumann-Connes’ dimensional function possesses a topological Menger-Urysohn dimension equal minus one [1] [4] . Since the random Cantor set is topological zero dimension, we have this way two Cantor sets arising from the classical unit interval bi-dimension, namely the zero measure thin Cantor set [1] [10] [11] [17]

(2)

and the fat measure empty Cantor set [1] [10] [11] [17]

. (3)

There are various geometrical, topological and physical interpretations for these two fundamental sets. Thus the of D(0) could be seen as the pre-quantum particle while the of could be seen as the cobordism of the particle, i.e. its quantum wave [1] [4] . However in view of the negative dimension associated with, it could be just as well interpreted as an anti-quantum pre-particle [1] [4] . Next let us regress to the quantum amplitude of quantum probability of conventional quantum mechanics. As is well known, this theory is based on complex numbers and the associated probability amplitude, that is to say the square of a complex state vector that gives us the quantum probability of finding a quantum particle [1] [4] [5] . Proceeding in this manner we find the well known probability expression [9]

(4)

or

(5)

where V and W are complex numbers [9] . Our next task is to show how the involved complex number can be replaced by the most irrational of all irrational numbers, namely the highly structured golden mean transfinite ring [15] . Transforming V and W as

(6)

and

(7)

and inserting in the union expression of P, one finds

(8)

For the intersectional probability one finds

(9)

In other words we have the equality of P(union) and P(intersection) which is the familiar indistinguishability condition [4] that fully explains what is normally seen as the paradoxical outcome of the famous two-slit experiment with quantum particles [4] .

We conclude that as the complex iteration leading to the famous Mandelbrot could be seen as the fractals inside the complex numbers [9] , so by the same token it is natural to replace conventional quantum mechanics by transfinite highly structured rings quantum mechanics [15] . In conclusion of this preliminary short discussion, we should note that is the Immirzi parameter which reconciles loop quantum gravity with superstrings [5] while is the latent Casimir topological pressure of the zero point spacetime vacuum, the inverse of which is the well known Hausdorff dimension of the core of E-infinity quantum spacetime, namely

(10)

as shown on many previous occasions [1] [4] . A somewhat detailed discussion of quantum spacetime emerges from the pre-quantum zero set particle and pre-quantum empty set wave is given in Appendix 1. Here it is sufficient to mention on passing that quantum spacetime could be regarded within our theory as an empty pilot wave with the average bi-dimension.

3. The Reinterpretation of Einstein’s E = mc² to Mean E = (mc²/22) + mc²(21/22) and Zero Point Vacuum Fluctuation

In various previous publications a new reinterpretation of Einstein’s magnificent equation E = mc²was introduced by dissecting it to the sum of ordinary energy and the sum of dark energy density of the universe [10] [17] . It was further reasoned that the ordinary energy is the energy of the quantum particle in five dimensional Kaluza-Klein (K-K) spacetime and the dark energy being the energy of the quantum wave in the same 5D K-K spacetime [1] [10] [17] . In this section we seek to give a more intuitive explanation for the dissection as well as linking the entire theory to the zero point vacuum energy of spacetime [11] - [13] .

Let us start with the phenomenology of the wave collapse [9] . Taking any measurement in classical quantum mechanics means observing a particle and never a wave although we will of course find the tell tale sign of a wave, namely the interference pattern after the fact provided no measurement is taken [9] . In other words, the wave aspect of this wave particle duality can be observed only indirectly as interference pattern, which disappears on measurement [8] [9] [19] . Now since it is the wave that propagates in quantum spacetime (that means in the empty pilot wave space) even though it is formally a probability wave, then in the Bohmian quantum mechanics at least we can say that the quantum wave energy is the kinetic energy of propagation and that we cannot measure it unless wave non-demolition measurement instruments are invented first [1] [9] . The potential energy on the other hand is the energy of the particle that we can readily measure because it is statical and can be found easily using conventional methods [9] . Now we ask a new question, namely how can the proceeding interpretation be viewed from the point of the true persistent probability of the true vacuum of spacetime? Starting from quantum field fundamentals and the exposition of for instance J. Schwinger, this probability is given by [12] [18]

(11)

where W_o is the familiar complex vector of quantum physics [9] [12] [18] . It is a well known fact that the real part of this complex form represents the statical part of W while the imaginary part is the dynamical part [9] [12] [18] . In other words, W consists of two effects, namely a statical real one which can be measured directly as a physical quantity analogous to the ordinary energy part of E, namely E = (mc²/22) while the kinetic energy is the imaginary part of W analogous to the dark energy of E, i.e. E = mc²(21/22) [17] . We conclude that had Einstein accepted quantum mechanics and moved on to quantum field theory, he would have realized that E = mc² means far more than anyone ever thought. It is actually the explanation of dark energy when written as [10] [17]

(12)

and goes on to explain dark matter when we incorporate the Kerr spinning singularity and arrive at the triadic division of E which takes the form [10] [17]

(13)

This is very close indeed to the results of measurements and cosmic observation that led to the COBE and accelerated cosmic expansion Nobel Prize in Physics and Cosmology [1] . Taking a bird’s eye view of the entire energetic situation, we realize how close Schwinger’s conception of persistent probability of the vacuum is to our conception of spacetime being pilot wave energy with a quantum particle.

4. Some Mathematical Prerequisites

Let us start by recalling some facts about our Cantorian spacetime [4] [10] [11] . It is described by

where and is the expectation topological dimension of the projection while is the expectation value of the Hausdorff dimension of the same projection. From the above analy-

sis and in view of previously obtained results [1] [2] [11] , we notice immediately that is the cobordism of the quantum wave given by as well as being the latent Casimir topological force of spacetime all apart of being the inverse of its Hausdorff dimension, namely [4] [10] [11]

(14)

Furthermore, it cannot pass unnoticed that is the topological mass of the ordinary part of the spacetime

topological energy, which leads to the ordinary energy density

[10] [11] . Similarly dark energy is clearly the part of the topological energy of

space associated with the surface of the zero set quantum particle, i.e. the empty set quantum wave. It is given as the product of the topological dark mass 5 which is the dimensions of Kaluza-Klein spacetime additive topological volume with the square of the topological Cantorian interval speed of light C_T(Topological) =. That means which leads to [10] [11] . After all this E-infinity and set theoretical manipulation, all that we really want to show and use is the fact that Casimir local effect and dark energy global effect are essentially the forces which produce and fuse atomic and sub-atomic particles together. A. Zakharov described this intuitively as elementary particles floating in a spacetime spanned by these particles [13] which in turn are made of the fractal spheres spacetime [14] - [16] as imagined in Figure 1 and further elaborated upon in section 9 of the present work. This could also be viewed as a spacetime underpinning a transfinite version of ‘tHooft’s cellular automata quantum theory [20] .

5. Fusion Algebra [22] for a Casimir Gradual Implosion

What we just said in the preceding section may strike one at first glance as difficult to grasp since fusion, as we know it from a fusion bomb, i.e. hydrogen bomb requires a huge amount of heat which can be provided in practice only via a fission bomb, i.e. an atom bomb [14] . From such a perspective cold fusion would seem like an unrealistic dream that can take place in nature only on the sun and similar hot stars or in a plasma [12] [13] . However we are proposing to manipulate the situation on the far smaller energy of nano measure spacetime, which is far less ‘hot’ than the Planck or the Compton measure of elementary particles [9] . Thus we are dealing in effect with the Casimir energy part with a twist. To understand what we mean we go back to the fission weapon [14] . In this case ignition takes place automatically at a critical mass [14] . That way one uses either the gun method where two sub-critical masses are shot together or the second well known method, which is the implosion method when a shockwave changes the density of a non-critical mass suddenly making it critical [14] . Here we propose using nano particles to cause a gradual controlled low speed implosion of a heap of suitable nano particles to maximise the Casimir effect leading to a semi cold fusion on the level of the resolution of a quantum field theory of nano particles so that large amounts of the so produced far higher than usual Casimir energy which will escape to the surface of the heap can be extracted [10] - [13] . In other words, we are creating mini universes resembling moduli of a mini multiverse [9] giving us in effect a cold fusion Casimir nano energy reactor with a deep intimate connection to the four dimensional fusion algebra used by the present author to simulate a highly structured golden ring quantum field theory [10] - [13] [22] - [34] . In this regard two well known theoretical effects will affect the real physical situation. The first is the physics and mathematics of surfaces and the 96% Dvoretzky measure concentration [15] . The second is the artificial high dimensionality of fractal sphere packing [16] . In what follows we would like to expand the preceding highly condensed ideas.

6. A Preliminary Design Proposal for a Cold Fusion Casimir Nano Energy Reactor

Let us leave the mathematical modelling of our reactor aside for now and ask ourselves how we will go on to build our reactor guided by the insight we gained so far. In practical terms it will all boil down to filling a small spherical shell with a huge amount of nano particles of various size and mixing it randomly and experiment with it to find an optimal density design. We expect to extract heat from this model by joining many such spaces in a fractal tree or network resembling a spacetime matrix that is, in the end analysis, our nano reactor [10] - [13] . In the most simplistic of terms we identify the things which we have to normally eliminate from a nanotechnological devices and just do the opposite here, i.e. maximizes what we normal minimize, namely the Casimir effect.

7. The Maximal Total Energy Locked in the Fractal Kaluza-Klein Spacetime

To understand the theoretical scheme behind our design we need to understand the following. The entire topological energy density of the universe is the product of a fractal Klein-Kaluza spacetime dimension 5 + and the topological dimension of the empty set [17]

. (15)

Inserting in Newton’s formula one finds [17]

. (16)

On the other hand the topological mass of dark energy m = 5 and the topological mass of ordinary energy m = could be either m = 5 or m = by union, namely m = 5 + and with c =. This gives

and as anticipated [17] . In other words,

in all the time since 1915, Einstein’s beauty harboured in E the quintessence of the quantum theory dualism of wave and particle [17] . To end this section let us show how to arrive to D = 5 + from monadic quantum particle zero set and quantum wave empty set [10] [17] . Let us see first how the two dimensional projection of spacetime is constructed from the union of infinitely many sets for positive topological dimensions for n = 0 to n = plus infinity. This is a simple summable infinite series

. (17)

For the ground state vacuum we have to do the same for n = 0 to n = minus infinity. This is then

(18)

The total sum is thus our fractal Klein-Kaluza dimensionality

(19)

From this master expression successive reinterpretation leads to various fundamental results in an incredibly simple way. First taking on rational approximation we find that goes to the classical D = 5 Kaluza-Klein theory. Second we counted the unit border twice as should be from one view point, however from another point of view it should be only once relative to an observer living in positive dimension so that we have effectively a bosonic space with D = 4 +. Finally taking only the fractal set and disregarding the unit set, we have which upon rationalization, gives us our familiar D = 3 classical dimension.

8. The Reasonable Effectiveness of Highly Structured Theories as the Raison D’Etre of E-Infinity Theory

Any reflective mind, whether one who occasionally uses and contributes to physical E-infinity theory or one from its inner wheels, must at a certain point ask himself why is this theory so simple mathematically and yet miraculously effective physically [1] [2] [4] . There may be more than one answer and more than one view point to explain this remarkable fact. As far as the present author is concerned, for the time being and awaiting a may be better explanation in the future, the following rationale may be partially satisfactory to a point. First E-infin- ity theory is rooted in the powerful topological global method even tough it gives numerical exact results [4] . However these exact solutions and the associated exact numeric are basically due to the involved highly structured nature of the theory. Our second point is that there may be at least two main aspects of the preceding conclusion, namely the golden mean highly structured rings [6] upon which our computation is completely founded. In addition an extension of this well known aspect of E-infinity mathematical theory, the physical E-infinity Cantorian spacetime theory is itself highly structured conceptually. This highly structured physical conception is what allows us to move from one physical aspect to another with almost a miraculous ease and simplicity. On the most fundamental level, it represents the Hausdorff dimension of the zero set [4] [11] . Going up the ladder one step higher to physics, this zero set is the model for the pre-quantum particle. Similarly the empty set is the pre-quantum wave and has a Hausdorff dimension equal. Now the Casimir plates gap enclose between them a quasi empty set in the limit while the virtual photons outside resemble pre-quantum particles. That is why we have a topological Casimir pressure equal to the difference between the empty set and the zero set giving us. On the other hand to be either a particle or a wave is simply which is the maximal possible probability belonging to the unit set because is also the topological probability of finding a Cantor point in a random Mauldin-Williams uniformly random Cantor set. The dimension of a manifold supporting such topological probability is a quotient space whose dimension is the ratio of to which means, the well known expectation value of our E-infinity Cantorian spacetime which was developed based on transfinite set theory and Finkelstein’s quantum sets [19] . The reader can now imagine how this web of expected and unexpected relations connecting initially seemingly unrelated objects arises as a highly structured and coherent theory in the golden mean resolves many problems in high energy physics and cosmology in the incredibly simple way we described earlier on. We should emphasize the role of the marvellous mathematical device invented by Felix Hausdorff [4] [9] . It is a generalization of the topological dimension to transfinite point set but it is equally a measure of disorder complexity and entropy. Consequently it plays a role in measuring the energy density as well as the mass which made it possible to find a new interpretation of Einstein’s E = mc² [17] . To put it in a single honest sentence, the physical E-infinity theory and its direct connection to K-theory, the mathematical E-infinity theory as well as n-category theory and four dimensional fusion algebra connected to sub-factors and golden ring highly structured topological quantum field theory [22] [24] is far cleverer than the present author who is supposed to have started it. I do not think one can say more than that.

9. Constructing Spacetime from Quantum Particles and Quantum Wave

In the following we give the quintessence of a non-perturbative quantum relativity theory. We start from von Neumann-Connes’ dimensional function for the x quotient noncommutative space [8] of which the Klein-Pen- rose fractal tiling universe [8] [9] is a generic quasi manifold

(20)

where and. Inserting the appropriate Z in D one finds the corresponding dimensions

D º D_(T,H) where T is the Hausdorff dimension of a bijected Menger-Urysohn topological dimension T. Consequently for the zero set pre-quantum particle one finds [1] [11]

. (21)

On the other hand the quantum wave, which is the surface of the quantum particle, is given by the cobordism empty set of the zero set. Therefore one finds [1] [11]

. (22)

Proceeding in the same manner one finds an infinite number of successive empty and emptier still sets given by [1] [4] [11]

(23)

Adding to this the quantum pre-particle we have. In addition we should include the zero dimensional state given by leading to a gross sum of. This is the basic Hausdorff dimension for three (n = 3) topological Menger-Urysohn dimension as given by von Neumann-Connes dimensional function [8] or alternatively by the equivalent bijection formula of E-infinity [1] [4]

(24)

which for n = 3 gives us the same previous result, namely

. (25)

Now we can contemplate two possibilities to gauge. The first is to measure it in terms of the pre-quantum particle and find the dimension of the core of E-infinity spacetime which is the Hausdorff dimension corresponding to, namely [4] [11]

(26)

The second possibility is to gauge in terms of the pre-quantum wave [1] [4] [11]

(27)

where, is the inverse electromagnetic fine structure constant and is Hardy’s quantum entanglement. On the other hand, realizing the evident fact that a spacetime dimensionality must be consistent with the particle-wave duality then this dimensionality must be that given by the union of 4 + and, namely [4] [11]

(28)

This is simply the dimensionality of a fractal Witten’s M-theory [4] [7] or a fractal super gravity spacetime. This fractal M-theory clearly supports the particle-wave duality of quantum mechanics. It is now extremely insightful to note the following: since the pre-quantum wave is the surface of the pre-quantum particle and is the surface of the pre-quantum wave, then the average ambient spacetime in the same 2D holographic boundary [20] , i.e. is simply the same as the surface of the pre-quantum wave on average. Remembering that is the topological mass of the ordinary energy as well as being the latent topological Casimir force, one can easily realize that dark energy is a Casimir global energy and that a hybrid energy form can stem from this unity making the idea of cold fusion not as outlandish as some used to think. Consequently Nobel Laureate Julian Schwinger (see Figure 2 and Figure 3) was not that far off in his warm enthusiasm for cold fusion [12] . Note also that Schwinger source [18] is replaced in the present theory by our Banach-Tarski theorem on sphere decomposition [21] .

10. Feynman Diagrams from a Source View Point

The attentive reader must have realized by now that the viewpoint behind the present work is much nearer to Schwinger’s source theory than it is to Feynman (see Figure 2 and Figure 3). This is by no means surprizing. Feynman’s diagrams, apart of anything else, have an inbuilt bias towards the particle aspect of the quantum. Here however we presented a fairly balanced particle-wave picture. In fact we say ‘fairly’ because the wave is on our view nearer to spacetime itself being both empty sets and the only difference is the degree of emptiness of this empty set. By contrast the particle is a non-empty zero set. Elaborating further on the Feynman graphs method and referring to the above comments and the legend of Figure 3 as well as our calculation in Section 9, it is well known that summing over subset of Feynman graphs that include infinite numbers of graphs. That way it is impossible to find an exact solution or in fact determine accurately the magnitude of error. This stands in marked contrast to Schwinger’s non-perturbative approach as well as our method as presented for instance in the short exact analysis given in Section 9. To sum up and put it in a nutshell, despite all the difference E-infinity theory comes much nearer to the functional formulation of Schwinger and Fradkin than to the very popular method of Feynman [34] . That incidentally is how we could tackle and solve the problem of dark energy and dark matter.

11. Conclusion

We presented in embryonic form a non-perturbative quantum relativity theory. Subsequently, a spacetime zero point vacuum nano reactor was outlined conceptually based mainly but not exclusively on the said theory as well as quantum set theory [19] and E-infinity theory [4] [6] [11] . Other subjects and theories played a major role in the present work, namely nanotechnology, K-theory, n-category theory, Dvoretzky’s theorem, sphere packing, Schwinger source theory and 4 dimensional fusion algebra of topological quantum field theory [22] - [33] . The crucial step in the actual design was the realization that spacetime itself was virtually an infinite reservoir of cosmic energy and that the experimentally confirmed Casimir effect was but the local manifestation of fractal Cantorianspacetime fluctuation being contained in its Hausdorff core dimension D = 4 + where and D = 4 was the Einstein spacetime topological dimension of special and general relativity. On the other hand, dark energy, which derived from the observed accelerated cosmic expansion, was nothing but the global accumulation of the local Casimir effect [10] [11] . As in the electric Faraday cage, the information of a black hole and electrostatics which are all surfaces rather than bulk bounded phenomena [9] . The theoretical reason was deeply related to the measure concentration predicted for high dimensional Banach-like manifolds of Dvoretzky’s celebrated theorem [15] . Consequently, our nano reactor design was based on a moduli unit mini holographic universe assembled into a matrix in a way to produce artificially high dimensionality and extract energy from its surface. The optimal high dimensionality was 5 + where five was the dimensionality of Kaluza-Klein spacetime and was the universal fluctuation of spacetime. The inside of each modulus was basically a self-similar matrix created by fractal packing of quasi-spherical nano particles. In this way the Casimir effect will be maximized creating slow imploding pressure which increases the Casimir force further still and makes a cold fusion environment possible enhancing our reactor and making it de facto a hybrid Casimir-cold fusion-dark energy nano reactor [10] - [12] . The present conclusions are yet another strong argument for the basic correctness of Schwinger’s source theory interpretation of the Casimir effect and the feasibility of a cold fusion energy reactor [12] [18] .

Cite this paper

Mohamed S. ElNaschie, (2015) On a Non-Perturbative Quantum Relativity Theory Leading to a Casimir-Dark Energy Nanotech Reactor Proposal. Open Journal of Applied Sciences,05,313-324. doi: 10.4236/ojapps.2015.57032

References