Induced gravity with Higgs potential - elementary interactions and quantum processes
Autor: | Bezares Roder, Nils Manuel |
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Jazyk: | angličtina |
Rok vydání: | 2010 |
Předmět: |
Yang-Mills-Theorie
Primordial inflation Superconductivity High Energy Physics::Lattice Central symmetry Astronomy [Black holes] General relativity: Physics Physics [Symmetry breaking] General Relativity and Quantum Cosmology Dark matter: Astronomy Dyons Black holes: Astronomy Symmetry breaking: Physics ddc:530 Particles: Nuclear physics Quantenchromodynamik Higgs field Physics [General relativity] Fridman-Universum Higgs-Teilchen Yang-Mills theory Nuclear physics [Standard model] Singularity DDC 530 / Physics Standard model: Nuclear physics High Energy Physics::Phenomenology Dark energy: Astronomy Astronomy [Dark matter] Schwarzschild horizon Nuclear physics [Particles] Fridman universe Dual QCD Astronomy [Dark energy] Scalar-tensor theory Quintessence Confinement |
Popis: | General features of Einstein’s theory and elementary quantum interactions are discussed in view of Maxwell systems and Yukawa´s theory of mesons and Yang-Mills theories. Special attention is paid to fermionic fields and the types of matter, but especially to the dark sectors of matter and energy. The concept of symmetry breaking in its different modes and the Higgs mechanism of mass generation are discussed, especially in relation with the SM of elementary particle physics. Higgs and Goldstone fields are presented together with unitary gauge and mass terms of the SM. The concept of dual symmetry is presented for electrodynamics in view of magnetic charges, Dirac strings and dyons which are related to Higgs fields. Further, the concept of Abelian projection is used in view of QCD and gluodynamics. In the same way that superconductivity is related to Abelian Higgs mechanism with composite Higgs-fields/Cooper-pairs, dual superconductivity is introduced as a possible explanation of confinement of quarks in hadrons. Scalar-tensor theories are introduced historically in view of the Jordan-Brans-Dicke theory together with Higgs gravitation and broken-symmetric theories. A theory of induced gravity with Higgs potential is introduced parting from the Bergmann-Wagoner class of scalar-tensor theories and spontaneous symmetry breaking. The field equations of gravity are presented together with Maxwell-like equations for gravity with a gravitational energy density. The model of induced gravity with Higgs potential is analyzed for central symmetry in virtue of its phenomenological consequences for weak fields and Black Holes. This is related to the phenomena of Dark Matter and Dark Energy. The model of induced gravity is analyzed for the Fridman-Lemaître cosmology with Robertson-Walker symmetry in virtue of Dark Matter and Quintessence from generalized Fridman equations. Signatures for the primeval universe and inflation are also discussed. |
Databáze: | OpenAIRE |
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