scholarly journals The Nature of Consciousness: A Channel of a Frequency Wavelength

2022 ◽  
Vol 3 ◽  
pp. 01-05
Author(s):  
Paul C. Mocombe
Keyword(s):  
Elementary Particle ◽  
Field Theory ◽  
Phenomenal Properties ◽  
Fifth Force

This article attempts to theoretically outline the nature of consciousness in Paul C. Mocombe’s consciousness field theory (CFT). Mocombe posits that consciousness is a channel of; or on; a frequency wavelength; which is both local and nonlocal. According to Mocombe; consciousness; is tied to an emergent fifth force of nature with an elementary particle; psychion; that arises from beings (subjects of experience) experiencing superimposed and entangled worlds; with Schumann waves tied to the (nonlocal) absolute vacuum; which gives rise to local consciousness fields the phenomenal properties; qualia; of which emerge as psychons and psychions in brains.

scholarly journals SURPRISES IN NONPERTURBATIVE DYNAMICS IN σ-MODEL AT FINITE DENSITY

2004 ◽  
Vol 19 (18) ◽  
pp. 1341-1356 ◽  
Author(s):  
V. P. GUSYNIN ◽  
V. A. MIRANSKY ◽  
I. A. SHOVKOVY
Keyword(s):  
Elementary Particle ◽  
Field Theory ◽  
Quantum Field Theory ◽  
Particle Physics ◽  
Chemical Potential ◽  
High Density ◽  
Quantum Field ◽  
Finite Density ◽  
Elementary Particle Physics ◽  
Kaon Condensate

The linear SU (2)L× SU (2)R σ-model occupies a unique place in elementary particle physics and quantum field theory. It has been recently realized that when a chemical potential for hypercharge is added, it becomes a toy model for the description of the dynamics of the kaon condensate in high density QCD. We review recent results in nonperturbative dynamics obtained in the ungauged and gauged versions of this model.

scholarly journals Unified Phase Field Theory Based on the Interaction of Positive and Negative Magnetic poles and Analysis of ATLAS, CMS Experiment at the LHC

2022 ◽  
Author(s):  
xianjin wu
Keyword(s):  
Elementary Particle ◽  
Field Theory ◽  
Phase Field ◽  
High Energy ◽  
Magnetic Pole ◽  
High Energy Proton ◽  
Proton Antiproton ◽  
Strong Force ◽  
Energy Proton ◽  
Magnetic Poles

Abstract This article assumes that the elementary particle is a magnetic pole field formed by the interaction of positive and negative magnetic poles and believes that gravity, electromagnetic forces, strong forces and weak forces are all produced by the interaction of positive and negative magnetic poles. The collision of the high-energy elementary particles appears as a strong force, the decay of the high-energy elementary particles appears as a weak force, the cohesive force of the high-energy elementary particle magnetic pole field (the gravitational field) to its magnetic pole is gravity, and the spin force of the high-energy elementary particle magnetic pole field in the external field (the gravitational field) is the electromagnetic force. This article discusses a high-energy proton-antiproton collision experiment based on the interaction of positive and negative magnetic poles and reveals the production mechanism of protonium, tauium, muonium, positronium, three generations of leptons and neutrinos, and the final state. This article explains the unification of the strong force, weak force, electromagnetic force and gravity with unified phase field theory and tests this theory by the ATLAS and CMS experimental data at the LHC. The data of the ATLAS and CMS experiments at the LHC are completely consistent with the calculated data of the phase field curvature tensor equation. Differential geometric variables are covariant with physical variables. The Lagrangian function of Einstein's mass-energy equation, the Lagrangian function of the Schrodinger particle differential motion wave function based on the theory of relativity, the Lagrangian density of the Young-Mills gauge field equation, and the high-energy elementary particle phase difference momentum-energy tensor of the curvature tensor equation are completely consistent in the high-energy proton-antiproton collision experiment. These results fully prove that the unified phase field theory is more in line with the physical reality of the high-energy proton-antiproton collision experiment.

scholarly journals Unified Phase Field Theory Based on the Interaction of Positive and Negative Magnetic poles and Analysis of ATLAS, CMS Experiment at the LHC

2022 ◽  
Author(s):  
xianjin wu
Keyword(s):  
Elementary Particle ◽  
Field Theory ◽  
Phase Field ◽  
High Energy ◽  
Magnetic Pole ◽  
High Energy Proton ◽  
Proton Antiproton ◽  
Strong Force ◽  
Energy Proton ◽  
Magnetic Poles

Abstract This article assumes that the elementary particle is a magnetic pole field formed by the interaction of positive and negative magnetic poles and believes that gravity, electromagnetic forces, strong forces and weak forces are all produced by the interaction of positive and negative magnetic poles. The collision of the high-energy elementary particles appears as a strong force, the decay of the high-energy elementary particles appears as a weak force, the cohesive force of the high-energy elementary particle magnetic pole field (the gravitational field) to its magnetic pole is gravity, and the spin force of the high-energy elementary particle magnetic pole field in the external field (the gravitational field) is the electromagnetic force. This article discusses a high-energy proton-antiproton collision experiment based on the interaction of positive and negative magnetic poles and reveals the production mechanism of protonium, tauium, muonium, positronium, three generations of leptons and neutrinos, and the final state. This article explains the unification of the strong force, weak force, electromagnetic force and gravity with unified phase field theory and tests this theory by the ATLAS and CMS experimental data at the LHC. The data of the ATLAS and CMS experiments at the LHC are completely consistent with the calculated data of the phase field curvature tensor equation. Differential geometric variables are covariant with physical variables. The Lagrangian function of Einstein's mass-energy equation, the Lagrangian function of the Schrodinger particle differential motion wave function based on the theory of relativity, the Lagrangian density of the Young-Mills gauge field equation, and the high-energy elementary particle phase difference momentum-energy tensor of the curvature tensor equation are completely consistent in the high-energy proton-antiproton collision experiment. These results fully prove that the unified phase field theory is more in line with the physical reality of the high-energy proton-antiproton collision experiment.

scholarly journals Unified Phase Field Theory Based on the Interaction of Positive and Negative Magnetic poles and Analysis of ATLAS, CMS Experiment at the LHC

2022 ◽  
Author(s):  
xianjin wu
Keyword(s):  
Elementary Particle ◽  
Field Theory ◽  
Phase Field ◽  
High Energy ◽  
Magnetic Pole ◽  
High Energy Proton ◽  
Proton Antiproton ◽  
Strong Force ◽  
Energy Proton ◽  
Magnetic Poles

Abstract This article assumes that the elementary particle is a magnetic pole field formed by the interaction of positive and negative magnetic poles and believes that gravity, electromagnetic forces, strong forces and weak forces are all produced by the interaction of positive and negative magnetic poles. The collision of the high-energy elementary particles appears as a strong force, the decay of the high-energy elementary particles appears as a weak force, the cohesive force of the high-energy elementary particle magnetic pole field (the gravitational field) to its magnetic pole is gravity, and the spin force of the high-energy elementary particle magnetic pole field in the external field (the gravitational field) is the electromagnetic force. This article discusses a high-energy proton-antiproton collision experiment based on the interaction of positive and negative magnetic poles and reveals the production mechanism of protonium, tauium, muonium, positronium, three generations of leptons and neutrinos, and the final state. This article explains the unification of the strong force, weak force, electromagnetic force and gravity with unified phase field theory and tests this theory by the ATLAS and CMS experimental data at the LHC. The data of the ATLAS and CMS experiments at the LHC are completely consistent with the calculated data of the phase field curvature tensor equation. Differential geometric variables are covariant with physical variables. The Lagrangian function of Einstein's mass-energy equation, the Lagrangian function of the Schrodinger particle differential motion wave function based on the theory of relativity, the Lagrangian density of the Young-Mills gauge field equation, and the planet phase difference momentum-energy tensor of the curvature tensor equation are completely consistent in the high-energy proton-antiproton collision experiment. These results fully prove that the unified phase field theory is more in line with the physical reality of the high-energy proton-antiproton collision experiment.

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