1. A Proposed Theory of Everything (TOE) Copyright © 2010, by Antonio A
A Proposed Theory of Everything (TOE) Copyright © 2010, by Antonio A. Colella
Proposed TOE unites all known physical phenomena from Planck cube (infinitely small) to Super Universe (infinitely large)
Each of 129 matter/force particle resides in a Planck cube
Universe objects are volumes of contiguous Planck cubes
Proposed TOE foundations are 20 existing independent theories
String, particle creation, inflation, spontaneous symmetry breaking, Higgs force/particles, superpartner and quark decays, neutrino oscillations, dark matter, universe expansions, dark energy, messenger particles, relative strengths of forces, Super Universe (multiverse), stellar black holes, black hole entropy, arrow of time, cosmological constant, black hole information paradox, baryogenesis, and quantum gravity
Selectively modified each existing theory
Integrated with interrelated theories without sacrificing existing theory’s integrity
Output was an integrated TOE P102111

2. String/Higgs Force/Dark Energy
Particle’s energy/mass
Calabi-Yau membrane’s (string) diameter, modulated amplitude and frequency
129 individual particles
16 SM, 16 supersymmetric, 32 anti-particles, 64 supersymmetric Higgs, 1 super force
Proposed symbols (e.g. up quark p11 and associated Higgs h11, p11 replaces u)
Explicitly identify Higgs particles
Eliminate ambiguities of existing symbols (e.g. p16 replaces γ)
Big bang singularity (superimposed super force particles’ strings)
Rotating, charged, doughnut shaped with radius < meters
Our universe’s near infinite energy/mass of 1054 kilograms, 1024 Mʘ
Super force condenses into 17 matter (W/Z) and 17 associated Higgs forces
Spontaneous symmetry breaking occurs at 17 different temperatures (bidirectional)
Higgs force is residual Super force (contains mass, charge, spin)
Matter particles and associated Higgs forces are one and inseparable
True vacuum or dark energy density (ρΛ )
Equals sum of 8 Higgs force particles’ energy densities associated with atomic (up quark, down quark, electron), dark (zino, photino), and 3 neutrino matter particles
Cosmological constant lambda(Λ) is proportional to dark energy density, Λ = (8πG/3c2)ρΛ

4. Super Universe/Stellar Black Holes
Our universe nested in our precursor universe nested in Super Universe
Black hole redefinition
Neutron star collapses to quark star (matter) collapses to black hole (energy)
Both quark star (matter) and black hole (energy) are “black”
A quark star (matter) has mass, volume, near zero temperature, and high entropy
A black hole (energy) has no mass, minimum volume (singularity), near infinite temperature, and minimum entropy
Supermassive quark stars (matter)
Contain 106 to 109 Mʘ , one at center of our universe’s 100B galaxies
Super supermassive quark stars (matter)
Existed in our precursor universe
Contain 109 to 1024 Mʘ
At the 1024 threshold, quark star (matter) collapsed to black hole (energy)
Entropy transformed from maximum to minimum, “resurrected life”
Quark star (matter)/black hole (energy) deflation similar to big bang inflation

5. Precursor Universe Justification
Law
The Ultimate Free Lunch Theory
A Proposed Theory of Everything
Conservation of Energy/Mass
Violates
Satisfies
Einstein’s Theory of General Relativity
Second Law of Thermodynamics

6. Backup

7. Table 1 Standard/Supersymmetric Particles
Symbol
Standard Model
Matter
Force
Supersymmetric p1
graviton x
p17
gravitino p2
gluon
p18
gluino p3
top quark
p19
top squark p4
bottom quark
p20
bottom squark p5
tau
p21
stau p6
charm quark
p22
charm squark p7
strange quark
p23
strange squark p8
muon
p24
smuon p9
tau-neutrino
p25
tau-sneutrino
p10
down quark
p26
down squark
p11
up quark
p27
up squark
p12
electron
p28
selectron
p13
muon-neutrino
p29
muon-sneutrino
p14
electron-neutrino
p30
electron-sneutrino
p15
W/Z bosons
p31
wino/zinos
p16
photon
p32
photino
Explicit Higgs particles h32
Explicit standardization via subscripts & capitalizations p2, p16, psfp11 P11, Psfdp11

10. Cosmological Constant Problem/Nested Universes
Was of expected value (2 x erg/cm3)
Because Super Universe was the size of our universe
Super Universe
Consists of nested universes
Dark energy density is a constant and uniformly distributed
Super Universe, precursor universe, our universe
Super Universe expands via eternal inflation
Dark energy density decreases with time
Our precursor universe
Subset volumes formed super supermassive quark stars (matter)/ black holes (energy)
Transitioned to white holes and redistributed matter
Super Universe’s radius approximately 1050 light years
Spherical volumes proportional to radii cubed (1040)(46.5 x 109 light years)
Super Universe’s age approximately 1050 years
Assuming equal expansion rates for Super Universe and our universe
Age = (Super Universe’s radius/our universe’s radius) (our universe’s age)

12. Super Universe Summary
Three types of stellar objects
Stars within Milky Way galaxy
Galaxies within our universe
Galaxies within parallel universes within Super Universe
Milky Way galaxy
Spherical volume - 50,000 light years radius (1 ly = 6 trillion miles)
Stars not uniformly distributed
Our universe
Spherical volume – 46.5 billion light years radius
100B galaxies uniformly distributed (300 million light years cube)
Hubble ultra deep – 13.1 billion years
James Webb telescope – 13.4 billion years
Super Universe
Spherical volume light years radius
10120 parallel universes uniformly distributed
Post James Webb required to detect closest galaxy in closest parallel universe