For decades, people layered quantum mechanics on top of math for classical physics. Math models fail to correlate with numerous elementary-particle and astrophysics phenomena.
We reset the basis for some mathematical physics. We start from quantum phenomena and from math for quantum harmonic oscillators.
We solve or point to how to solve more than 10 well-known problems. What elementary particles remain to be discovered? What symmetries encompass Standard Model symmetries? How can models unify gravity and electromagnetism? What masses do neutrinos and leptoquarks have? What might...
For decades, people layered quantum mechanics on top of math for classical physics. Math models fail to correlate with numerous elementary-particl...
What elementary particles remain not found? What phenomena would their existence explain? We try to answer those questions. We use the following steps. Find math for which some solutions correlate with known elementary particles and with interactions in which the particles partake. Assume that other solutions correlate with undiscovered particles and interactions. Consider the new particles and interactions. Address known particle-physics problems. Address known astrophysics problems. Address known cosmology problems. Solutions point to dark-matter and dark-energy fermions. Solutions point to...
What elementary particles remain not found? What phenomena would their existence explain? We try to answer those questions. We use the following steps...
We show how to close gaps between data and elementary-particle, astrophysical, and cosmological theories. We show math for which some solutions correlate with all known elementary particles and some known composite particles. Other solutions correlate with possible new ordinary-matter, dark-matter, and dark-energy elementary particles and composite particles. We show that existence of such new particles would close gaps regarding sizes of violations of CPT-related symmetries and regarding other aspects of particle physics; regarding quasar formation and regarding other aspects of...
We show how to close gaps between data and elementary-particle, astrophysical, and cosmological theories. We show math for which some solutions correl...
We provide models that integrate aspects of elementary-particle physics, atomic physics, dark matter, dark energy, astrophysics, and cosmology. We predict elementary particles. We offer explanations for dark matter, dark energy, and some cosmology phenomena. Our approach involves math that, while not very deep, seems to provide a basis for cataloging and predicting elementary particles and to provide a basis for integrating historically useful physics theories and models.
We provide models that integrate aspects of elementary-particle physics, atomic physics, dark matter, dark energy, astrophysics, and cosmology. We pre...
