Logarithmic Running of ‘t Hooft-Polyakov Monopole to Dark Energy
Issue:
Volume 1, Issue 1, April 2014
Pages:
1-5
Received:
28 January 2014
Published:
20 March 2014
Abstract: The paper presents a particle physicists’ interpretation of the mathematical abstract concept of a five dimensional empty set as the source of dark energy and dark matter. It turns out that the simplest alternative physical interpretation at least from the view point of the GUT unification of fundamental interaction is the theoretically well established but experimentally never found yet ‘t Hooft-Polyakov magnetic giant monopole with the predicted huge mass of ten to the power of 16 Gev. In fact it will be shown here using exact renormalization equations that running the preceding energy logarithmically leads to a prediction of the ordinary and the total dark energy density of the cosmos in complete agreement with our earlier result E(O) = mc2/22 and E(D) = mc2(21/22) based on the afore mentioned set theoretical concepts as well as with all the relatively recent cosmological measurements. The decisive steps in the present derivation consists of two realizations. First and to our deepest surprise and delight, E =γmc2 = mc2 is actually a unification formula uniting classical, relativistic and quantum mechanics where γ= 1 corresponds to a 100% energy density. Second and also not expectedly, the logarithmic running of ‘t Hooft-Polyakov’s monopole energy leads to a reduction factor γ= 1/λwhere λ=1/2 ln (M(monopole))/(m(electron))=22.18033989, in full agreement with our previous results using entirely different approaches. Finally the results are validated using ‘t Hooft’s dimensional regularization D = 4 ∈ by setting = 2∅^5 where ∅^5 is Hardy’s quantum entanglement and φ=2/ √5+1.
Abstract: The paper presents a particle physicists’ interpretation of the mathematical abstract concept of a five dimensional empty set as the source of dark energy and dark matter. It turns out that the simplest alternative physical interpretation at least from the view point of the GUT unification of fundamental interaction is the theoretically well establ...
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Relativistic Meson-Proton and Proton-Proton Cross- Sections and Quantum Molecular Dynamics Model
Issue:
Volume 1, Issue 1, April 2014
Pages:
6-12
Received:
12 February 2014
Published:
20 March 2014
Abstract: Above 104 GeV/c projectile momenta, the total cross-sections for pp and( p) ̅ p collisions as a function of laboratory beam momentum and center of mass energy, are independent. In the range, 0.1 up to 104 GeV/c the total cross-section depends on the nature of the interacting particles and on the geometrical interpretations in terms of the impact parameter. This could explain in terms of the Quantum Molecular Dynamic QMD model and its ultra relativistic approach UrQMD, in terms of the isospin of the colliding particles, their flavor, and center of mass energies. The model can give also a qualitative success for such dependencies for π^+ p and k^+ p interactions.
Abstract: Above 104 GeV/c projectile momenta, the total cross-sections for pp and( p) ̅ p collisions as a function of laboratory beam momentum and center of mass energy, are independent. In the range, 0.1 up to 104 GeV/c the total cross-section depends on the nature of the interacting particles and on the geometrical interpretations in terms of the impact p...
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