Quantum Entanglement : Where Dark Energy and Negative Gravity plus Accelerated Expansion of the Universe Comes from

Dark energy is shown to be the absolute value of the negative kinetic energy of the halo-like quantum wave modeled mathematically by the empty set in a five dimensional Kaluza-Klein (K-K) spacetime. Ordinary or position energy of the particle on the other hand is the dual of dark energy and is contained in the dynamic of the quantum particle modeled by the zero set in the same five dimensional K-K spacetime. The sum of both dark energy of the wave and the ordinary energy of the particle is exactly equal to the energy given by the well known formula of Einstein which is set in a four dimensional spacetime. Various interpretations of the results are presented and discussed based on the three fundamental energy density equations developed. In particular 2 E mc      5 2 2 ordinary 2 22 E mc mc   where E is the energy, m is the mass and c is the speed of light, 5  is Hardy’s quantum entanglement and   2 1 5    gives results in complete agreement with the cosmological measurements of WMAP and Supernova. On the other hand     2 dark 21 22 E mc   gives an intuitive explanation of negative gravity and the observed increased rate of cosmic expansion. Adding to one finds   ordinary E dark E      2 2 22 21 22 E mc mc mc    2 which as we mentioned above is Einstein’s famous relativity formula. We conclude that similar to the fact that the quantum wave interpreted generally as probability wave which is devoid of ordinary energy decides upon the location of a quantum particle, it also exerts a negative gravity effect on the cosmic scale of our clopen, i.e. closed and open universe. Analysis and conclusions are framed in a reader friendly manner in Figures 1-14 with detailed commentary.


Introduction
We utilize the wave-particle duality [1,2] and quantum entanglement [2][3][4][5][6][7][8] as fundamental features of quantum mechanics [1,8] as well as classical field, quantum set theory [3] and transfinite quantization  to develop an effective quantum gravity energy theory [1][2][3][4][5][6][7][8] that can convincingly resolve the problem of the accelerated rate of cosmic expansion and the missing dark energy of the cosmos and at the same time agrees with the accurate WMAP and Supernova cosmic energy density measurements and analysis [9][10][11][12][13][14][15][16][17][18].It turns out that ordinary energy is intimately related to the position energy of a generic quantum particle [9,20] in five dimensional Kaluza-Klein spacetime [2,4,6] and amounts to where E is the energy, m is the mass, c is the speed of light, 5   is Hardy's quantum entanglement and    [12,17,18] (see Figure 1).Dark energy on the other hand was found to be a hitherto unknown and unsuspected halo-like feature of a generic quantum probability wave with a negative kinetic energy inducing negative gravity (see Figure 2).Thus a certain broken symmetry governs particles and waves from a set theoretical perspective [1,8].In short the quantum particle is the ultimate source of ordinary energy and contributes to  percent of the total energy of the cosmos [18,19] (see Figures 1-12).In turn the quantum particle is modeled by the zero set represented dimensionally by von Neumann-Connes dimensional function [8,44] of a Penrose quasicrystal fractal tiling space [21][22][23].The broken mirror image of the quantum particle is the halo-like quantum probability wave which is the source of a negative energy anti-gravity (see Figures 9 and 11) stemming from modeling the quantum wave via the empty set of the same Penrose quasicrystals fractal tiling [21][22][23][30][31][32][33][34]44].Subsequently the energy of the quantum wave was found to be [12,18]  where as in von Neumann-Connes' non-commutative geometry [8,22,33] and its well known dimen dimensional function when applied to Penrose fractal clopen i.e. closed and open universe tiling [21,44].

Quantum Wave
Dark energy on the other hand is given by the dual additive hyper Hausdorff measure or volume of the empty set i.e. quantum wave in 5 D  Kaluza-Klein spacetime [4,6].Thus we start from which is the empty set given by [8]  It was then found to the Author's delight that the sum of ordinary energy of the particle and absolute value of the negative dark energy of the wave added together is exactly the energy predicted by Einstein's formula [2,3,17]   i.e. [8,44].
1 and for 

The Hausdorff "Volume" of the Zero Set in Five Dimensional Space and the Quantum Particle
Our most important conclusion in this work is that Einstein's gives the correct total energy formula for an infinitely large Cantor set-like clopen i.e. closed and open universe [24][25][26][27][28][29] but it does not distinguish between ordinary energy and negative dark energy of a basically fractal cosmos.Noting that measurement leads to quantum wave collapse, it is completely normal that we cannot measure dark energy using present day technology.In the following sections we will attempt to explain more accurately but concisely the points transacted above.For a quick overview, the entire analysis and results are summarized in Figures 1-3 In a sense this Hausdorff measure is the "volume" or the energy density of a quantum particle [8].
The volume 5   could be naively interpreted geomet- rically as the generalization of the volume of a cube to a pseudo 5D cube with each side being of a length equal to  .(See Figures 13 and 14)

The Hausdorff "Volume" of the Empty Set in Five Dimensional Space and the Quantum Wave
On the other hand for the additive Hausdorff "volume" which is equal the length of the empty set [22,33] of dark energy we have the addition or union rule of sets in 5 K-K dimension and one finds (see Figures 1(a) and (b))

Basic Concept
Vol 5 Empty set 5 .
) Ordinary energy of the universe is directly proportional to the fractal nature of spacetime [4][5][6][7][8][9][10][11][12][30][31][32][33][34].More accurately it is the multiplicative hyper Hausdorff measure or volume of the zero set i.e. the quantum particle in a five dimensional Kaluza-Klein universe  5 D  .The zero set which possessrs the cardinality of the continuum is fixed using the Bi-dimensions formula [8] We used here the union of sets rather than the intersection because of the duality between particle and wave [2,8] (see Figures 13 and 14).Consequently the Hausdorff measure of the empty set in K-K spacetime represents the energy density of a quantum wave which does not exist in the usual conventional quantum interpretation because a conventional quantum wave in orthodox quantum mechanics is a probability wave and has no i.e. the topological dimension and the Hausdorff dimension  ordinary energy and collapses at measurement [1,2].and collapse at measurement [1,2].Again a possible naïvegeometrical interpretation of 2 5 is being a one dimensional "surface" i.e. the circumference of a pentagon with each of the 5 sides being of a length equal to 2   (see Figure 13).In particular the quantum wave determines the most probable location of a quantum particle but vanishes for a classically large object which is the contrary effect of negative gravity induced by the same wave i.e. anti gravity vanishes locally and exists only by accumulation at cosmic scales.

The Average Hausdorff Volume of Quantum Particle and Wave as Total Relativity Energy
From the above points ( 3) and ( 4) we see that the total geometrical density or pseudo Hausdorff "volume" is the sum of both the fractal part of spacetime 5   and the voids "empty" part of spacetime 2 5 .This means (see Figures 1(a) and (b) as well as Figures 13 and 14) This is an extremely important result because an arithmetic average geometrical density or Hausdorff "dimensional volume" would give us On the other hand the measure or "volume" or geometrical density of the unitarity set is and leads directly to Einstein's celebrated energy density formula [2,5,17] (see Figures 1 and 2 where E is the energy, m is the mass and c is the speed of light [2,3,12,17].The fractal meaning of the constancy of the speed of light is explained in Figure 11 to round up the discussion and stress the fundamental role played by fractal geometry of spacetime in determining the duality of ordinary and dark energy [12][13][14]22,33].

The Speed of Light, Positive Energy, Negative Energy and Einstein's Energy
Noting the result of point (2.5) we see that Einstein's equation may be viewed as based on an arithmetic average density or "volume" of 5D Kaluza-Klein space which does not differentiate between fractals due to voids and the voids in spacetime themselves and consequently Einstein's energy density is simply given by the famous equation based on continuous geometry and unit hyper volume equal to one [12,26]: On the other hand ignoring the density of the voids and considering only the fractal part of spacetime represented by the five dimensional zero set, we then find the quantum relativity formula of ordinary energy density validated by direct cosmic measurement namely [12,17,18] (see Figure 2)

22
Ordinary Energy Energy of the quantum particle Positive Energy Note that division by 2 in the above equation is due to arithmetic averaging and not due to using Newton's kinetic energy because in this particular interpretation velocity tends to be the velocity of light without multiplying it with  as in unit interval physics using Sigalotti's critical value [28,29].For an alternative derivation of see Figures 3-8 as well as Figures 13 and 14.

QR E
By contrast if we consider spacetime voids only as represented by the quantum wave i.e. the empty set in 5D Kaluza-Klein theory (which means that it is the so-called dark energy of the cosmos), then we have the following complementary quantum relativity energy density formula: (see Figure 2 as well as Figures 13 and 14) Copyright © 2013 SciRes.JQIS

Einstein's Energy Formula and a New Point of View
From points discussed in the preceding sections we can conclude that Einstein's formula is blind to the difference between ordinary ene ntum particle energy and dark energy i.e. the quantum wave energy because it presupposes a continuous smooth spacetime and never addresses any questions related to fractality or sparseness of spacetime which is the cause of the constancy of the speed of light at the classical interface being a fractal average (see Figure 11) [8,12,13,30].However there are more profound consequences of the spacetime voids than that which will be discussed in the next paragraph.For the moment we have only to recall that the wave is the cobordism i.e. the surface of the quantum particle and thus particle and wave are inseparable [8].

The Negative Sign of the Quantum Wave Energy and Anti Gravity
If we consider the effect of the tw sions of the zero set and the empty set on our average pseudo Hausdorff Kaluza-Klein hyper volume or geometrical density then we could work out the following modified negative arithmetic average [8] (see Figures 1  and 2) nergy acquires in this case the Consequently dark e  (12)   ily the e rs observations [9][10][11][12][13][14][15][16][17].

Intermediate Discussion
We conclude t i.e. no negative sign of the topological dimension of the empty set corresponding to the basic compactification equation of bosonic string theory [2,6,17] This negative sign (see Figure 9) is therefore an ad tional indication that dark energy or what is equivalen nergy of the quantum wave i.e d t .the empty set diffe fundamentally from ordinary energy for being negative and represents effectively negative gravity pushing in the opposite direction of classical gravity and causing the cosmic expansion of the Universe to accelerate rather than de-accelerate in agreement with relatively recent accurate hat while fractals the zero set or phemenologically the quantum particle is behind ordinary energy, voids in spacetime c rresponding to the empty set i.e. the quantum wave i.e. the halo of the quantum particle [8,23,33,44] are not only behind dark energy but also are the cause of negative gravity and the increased rate of cosmic expansion [9][10][11]15,16 has spacetime, then negative curvature [9] is and is akin ) known from the be s and theories of elasticity and plasticity ke in Cosserat micro theories may ac ilar to Cartan relativity and adm antigravity [2].Thus enological explanation arising n's ratio that when a long t n the longitudinal opposite perpendicular , we could say that the effect of an anti-curvature producing anti-gravity [9] due to negative energy of the halo [9] of the quantum particle i.e. the quantum wave which we have dubbed dark energy for want of a better physical word communicating the deep meaning [9][10][11][12][13][14][15][16][17][18].We can go even further still and claim that negative absolute temperature is another physical manifestation of negative dimensions and the empty set (see Figure 10) and therefore negative energy and consequently dark energy [41].The epistemological question of how a wave devoid of ordinary energy could induce a measurable negative gravity effect is essentially the other side of the fact that this same wave decides on the location of a quantum particle as confirmed by theory and experiment [1][2][3].In other words the quantum probability wave possesses an ontological quality.Said differently we know that measurement collapses the quantum wave by converting an empty set particle to zero set wave.Consequently cosmic measurement collapses the Hawking-Hartle wave solution of the Wheeler-DeWitt Schrödinger equation of the universe and therefore we cannot see or measure any energy of this wave unless we develop quantum nonde-

Various Interpretations and Duality in
Five Dimensional Kaluza-Klein Spacetime is equal to Einstein's famous equation [2].Unlike ordinary e which is entirely rooted in the zero set describing ne gies in the Magueijo-Smolin rmalism [5,26] and their elegant energy expression (see Figure 3):   curvature (see Figure 9 elastic material [35][36][37].A torsion tensor li dia and similar classical field late something sim negative curvature and here the intuitive phenom from the effect of Poisso beam [35][36][37] is curved i cross section curves in the tion [35].Consequently D molition measurement instrument [1].
Ordinary energy density and dark energy density are two dual yet complementary faces to a one common energy given by the sum of both which 2 E mc  nergy a geric quantum particle state, dark energy is solely due to the quantum wave aspect of the quantum particle as modeled by the empty set [8]. Nothing could show this symmetric duality better than writing both types of ener-fo 2 2 . 1 Here m is the five dimensional Kaluza-Klein mass [38,39], c is the speed of light and P E is the Planck energy.Using the unit interval set theoretical value for  [12,17] (see Figure 3) and inser E we find ting in exactly as should be.However using Witten's T-duality [2,4,6,40] (see Figure 3): and inserting in E one finds where  us we have demonstrated in the p [22,33].Th resent work and presumably for the first time that dark energy is essentially the absolute value of the negative energy density of the Hawking-Hartle quantum wave solution of Feynman-Wheeler-DeWitt Schrödinger equation of the entire universe and as such it induces the hitherto unknown phenomena of negative gravity which we and others consider to be the cause of the observed increased rate of cosmic expansion [9][10][11][12][13][14][15][16][17][18].This physical interpretation makes a great deal of sense because the et theoretical definition of the quantum wave is the e set represent s mpty ed by whose topological dimension is uently the accurate way to write down the quantum wave energy density is [8,9,32] minus one (−1).Conseq where 5 is the dimension of Kaluza-Klein spacetime [42, ding of the broken ticle and wave and 43].To gain an even deeper understan symmetry and duality between par consequently between ordinary energy and negative or dark energy, let us start this time from Newton's classical expression for the kinetic energy [ Recalling the set theoretical duality between the quantum particle zero set and the quantum wave empty set [8] sformation given for particle and wave as in the following box: Box No. 1. Particle-wave duality transformation.

For particle
For wave as well as the dual tran Then inserting in N E one finds the following particle and wave energy as per the next box: Box No.2.Quantum particle ordinary energy and quantum wave dark energy.

For particle
For wave Ordinary Positive Energy is the Hausdorff dimension of a four dimensional set given by   3 4; 4   and representing the core of fractal-Cantorian spacetime [21,22].At the same time 3   is the global quantum entanglement probability or what some call the counter factual effect of the spacetime surrounding a quantum particle [32].It is numerically equal to the Unruh dimensionless thermal temperature [2] and together with 2  gives   

  
 the which is glement of two quantum particles [37].On er hand the appearance of 5 in 5m maybe seen as the oth gnetism five dimensionality of a Kaluza-Klein spacetime [2,4,6].This is an ordinary 4D-Einstien space with a single additional cyclical pipe-like compactified extra dimension joining electro ma to gravity [38,39,42,43] (see Figure 4).It could be also seen as an extra spin half fermionic dimension [22].However like the bosonic fractal dimension 1 4     , the non-fractal five dimensional fermionic K-K spacetime [38,39] enters into the energy equation of the quantum wave or dark energy directly simply as factor 5. For the sake of completeness let us see what would result from considering a fractal i.e. a transfinitely qu Kaluza spacetime developed by the Author [38,39,42,43] with antized Klein- In this case    This is initially a surprising result but it is a misunderstanding as well because it shows that E(Einstein) tainable from a fractal five-dimension Kaluza-Klein spacetime while dark energy is the child of a mere fiveional non-fractal Kaluza-Kl me.How- Ordinary Energy Dark ave kinetic Energy is obdimens ein spaceti ev 3 er the difference is namely that  is the factor responsible for the additional energy which is nothing but the ordinary energy which when added to non-fractal 5D Klein Kaluza [38,39] i.e. to dark energy gives the total energy, namely that of Einstein's energy.This confirms all of our earlier results namely that 2 E mc  could be obtained via either a smooth 4D spacetime or via a delicate analysis using a fractal five dimension spacetime (see Figure 4).Seen that way namely  so that one finds (see Figure 4) In other words we can either interpret We conclude this section by stressing that there are three and not only one Kaluza-Klein theories.The first is the classical 5D theory of Kaluza [41].The second is the quantized 5D theory of Klein [41,42].The third is the transfinitely quantized theory d the author [38,39,43].
Dark energy is a non-classica of neg   where  from Nash's embedding us the n tion of spacetime sparseness and Figure 8 gives an idea about the role of bosonic strings dimension.
A particular tantalizing result is that the sum of both energies, dark energy and ordina s a nea confirmation of Einstein's famous relativity formula because The negatives of the dark energy on the other hand confirm earlier string theoretical conjectures that negative gravity is due to negative energy of the compactified 22 dimensions which produce negative cu the bosonic string dimensional equation [2,4,12]        [42,43] as well as the fractality of spacetime and ontological reality of the quantum wave [8,13,14,20,43,44] all apart from the reality of dark energy which we cannot see or measure because measurement collapses the quantum wave.
For nt view of negative gravity v signs in any e a differe ia general relativity and comparison with Heterotic string theory see Figure 9 and commentary therein.
It is worth noting that negative dimensions are behind the experimentally observed negative Kelvin absolute temperature [41] and may thus be looked upon as another ph tion of dark he present work suggests, then our cosmos is clopen i.e. opened and closed because Cantor sets are clopen.
We could understand the repelling effect of dark energy on a cosmic scale as a phenomenon basically due to the fact that the motion of quantum objects and its spatial location is determined completely by the quantum following prescription [1][2][3].It is a matter of speculation that the spinning of Gödel's universe (see Figure 12) [40] is related to dark energy and repelling gravity.Finally the constancy of the speed of light as a fractal average is ex ysical interpreta energy (see Figures 10(a) and (b)).Furthermore if the building blocks of spacetime are random Cantor sets as t wave plained in some detail in Figure 11.

5 
the energy, m is the mass and c is the speed of light, is Hardy's quantum entanglement and complete agreement with the cosmological measurements of WMAP and Supernova.On the other hand explanation of negative gravity and the observed increased rate of cosmic

Figure 1 .
Figure 1.(a) The set theoretical ordinary energy-dark energy duality; (b) The quintessence of dark energy from the topology f the cantor set.o

D
so that we find

Figure 9 .
Figure 9.The deriving force behind gravity and negative gravity.

Figure 10 .
Figure 10.(a) Complexity of maximal entropy and minimum entropy are equal; (b) Negative dimension and negative Kelvin temperature.

Figure 11 .
Figure 11.An overview regarding the constancy of the speed of light beeing a fractal mean value at the classical-quantum interface and thus constant.where

Figure 14
Figure 14.A naive geometrical interpretation of well as  in c  .The simplest way to explain it in the present context is  in c  .This stems from Sigalotti's critical speed given by .


enters into the energy equation of the quantum particle in the inverse form   3 3 number weight of 1 photon[20]


and division by 2 as coming from using Newton's kinetic energy.
stemming from the quantum wave empty set characteristic and we found it quantitatively to be given y the absolute value of b proves that   1 22 of ordinary energy and   21 22 of dark energy have opposite vent.In fact the present theory strongly suggests the physical reality of Kaluza-Klein extra fifth dimension

Figures 4-12. In Figures 13 and 14 we
, while valuable details and additional information are presented in give a naive yet very instructive geometrical visualization and interpretation of the wave-particle duality in five dimensional Kaluza-Klein spacetime.