September 16, 2017
I published the book Unitedly Broadened Physics: Toward One Theory for Elementary Particles, Objects, and the Cosmos. The abstract is …

- We address three physics opportunities. First, predict new elementary particles. Second, explain phenomena such as dark matter and dark energy. Third, unite physics theories and models.
- We use models based on solutions to equations featuring isotropic pairs of isotropic quantum harmonic oscillators.
- First, we show solutions that match the known elementary particles. We propose that other solutions correlate with elementary particles that people have yet to detect.
- Second, we extend solutions to encompass known conservation-law symmetries. We note that extended solutions correlate with known kinematics. We propose that extended solutions correlate with descriptions of dark matter, dark energy, and other phenomena.
- Third, we note that the work unites, extends, and limits aspects of traditional physics. Those aspects include classical physics, special relativity, general relativity, quantum mechanics, the elementary-particle Standard Model, and the cosmology timeline.

I invite you to read, enjoy, learn, and extend work “Unitedly Broadened Physics” discusses.

I provide more information and a 30+page extract at link.

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Tags:Astrophysics, Axion, Baryon asymmetry, Boson, Charge, Clumping, Color charge, Conservation laws, Cosmic microwave background (CMB), cosmology, CP violation, CPT symmetry, Curvature of the universe, Dark Energy, Dark Matter, Density of the universe, Dirac fermion, Elementary Particles, Fermion, Field theory, Flat universe, Flyby anomaly, Fundamental forces, Galaxy rotation problem, General relativity, Generations, Gluon, Gravitational constant, Graviton, Higgs boson, Inflation, Lasing, Magnetic moment, Majorana fermion, Mass, Masses of elementary particles, mathematical physics, Neutrino oscillations, Perihelion shift, Photon, Quantum gravity, Quantum harmonic oscillator, Quasar, Rate of expansion of the universe, Special relativity, Spin, Standard Model, Standard Model symmetry, Strong interaction, Tauon mass, Uncertainty, Unified electromagnetism and gravity, Weak interaction, Weak mixing angle

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