QFT & Particle Physics Hub · Rui Manuel de Almeida Pinheiro · Wave Only Ontology
- QFT & Particle Physics · Chapters 76–83 ✅ Complete
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Chapter 76: Quantum Fields in Hz.
The quantum field is the Hz field. Field operators are phase-locking/unlocking operations. The vacuum is the ground state of the Hz field. Particles are phase-locked excitations. The path integral is a sum over all phase configurations.
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Chapter 77: The Upanishads — Brahman and Atman in Hz.
Brahman is the global Hz field. Atman is the phase-locking network. Tat Tvam Asi is the realization that the network is the field. Maya is the illusion of separate particles. The Upanishads provided the metaphysical foundation for quantum mechanics.
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Chapter 78: Symmetry in Hz.
Symmetry is phase invariance. Noether's theorem = conserved phase energy. Continuous symmetries = phase rotations. Discrete symmetries = phase reflections. Poincaré symmetry = phase velocity $c$. CPT symmetry = phase inversion $f \to -f$. Symmetry breaking = phase-locking of the vacuum. Goldstone bosons = phase fluctuations.
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Chapter 79: Gauge Symmetry in Hz.
Gauge symmetry = local phase invariance. Gauge bosons = phase fields. U(1) = electromagnetic phase field. SU(2) = weak phase field. SU(3) = color phase field. The Standard Model gauge group = SU(3) × SU(2) × U(1).
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Chapter 80: Renormalization in Hz.
Renormalization = frequency cutoff. Running couplings = phase coupling as a function of frequency. RG = phase dynamics across scales. Asymptotic freedom = phase coupling vanishes at high frequencies. Confinement = phase coupling diverges at low frequencies.
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Chapter 81: The Path Integral in Hz.
The path integral = sum over all phase configurations. The phase action = $S[\Psi] = \int d^4x \, L(\Psi)$. Feynman diagrams = phase interaction topologies. The propagator = phase correlation function. The effective action = coarse-grained phase dynamics. Quantum fluctuations = phase fluctuations.
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Chapter 82: QED — Quantum Electrodynamics in Hz.
QED = phase dynamics of electrons, positrons, and photons. The electron = phase-locked mode. The positron = $f < 0$ mode. The photon = U(1) phase field. The fine-structure constant = phase coupling. QED is the quantum phase of light and matter.
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Chapter 83: QCD — Quantum Chromodynamics in Hz.
QCD = the phase dynamics of quarks and gluons. Quarks = color phase-locked modes. Gluons = SU(3) phase fields. Asymptotic freedom = phase coupling vanishes at high frequencies. Confinement = phase coupling diverges at low frequencies. QCD is the phase structure of the strong interaction.