has been cited by the following article(s):
[1]
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On the role of Einstein–Cartan gravity in fundamental particle physics
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2020 |
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[2]
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Theory of Fermion Masses, Mixing, Lagrangian Potentials and Weak Beta Decays, based on Higgs Bosons arising from the Scalar Fields of a Kaluza Klein Theory with …
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2018 |
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[3]
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On the Role of Einstein-Cartan Gravity in Fundamental Particle Physics
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2017 |
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[4]
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A Geometrodynamic Foundation for Classical and Quantum Electrodynamics, in Four Spacetime Dimensions
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2017 |
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[5]
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Electromagnetic Time Dilation and Contraction, and a Geometrodynamic Foundation of Classical and Quantum Electrodynamics
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2016 |
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[6]
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Fundamental fermion interactions via vector bosons of unified SU (2) x SU (4) gauge fields
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Frontiers in Physics,
2016 |
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[7]
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Fermion unification model based on the intrinsic SU (8) symmetry of a generalized Dirac equation
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Frontiers in Physics,
2015 |
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[8]
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Decoding the Nuclear Genome: Is there an Unambiguous and Precise way to Define the Current Quark Masses and Relate them to Nuclear Binding Energies and Mass Defects, and what is the Underlying Theory?
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2014 |
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[9]
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On the Classical Unification of Elementary Particle Physics with Nuclear and Hadron Physics, Electrodynamics, and Gravitation
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JR Yablon - rxiv.org,
2014 |
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[10]
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Why the Composite Magnetic Monopoles of Yang-Mills Gauge Theory have all the Required Chromodynamic and Confinement Symmetries of Baryons, how these may be developed into Topologically-Stable Protons and Neutrons, and how to Analytically Path Integrate the Yang-Mills Action
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JR Yablon - rxiv.org,
2014 |
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[11]
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Decoding the Nuclear Genome: Is there an Unambiguous and Precise way to Define the Current Quark Masses and Relate them to Nuclear Binding …
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2014 |
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[12]
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Higgs Field Theory of the Observed Fermions, and their Masses, Magnetic Moments and Renormalization
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NULL
2013 |
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[13]
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Predicting the Neutron and Proton Masses Based on Baryons which Are Yang-Mills Magnetic Monopoles and Koide Mass Triplets
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Journal of Modern Physics,
2013 |
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[14]
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Fitting the Neutron and Proton Masses within Experimental Errors Exclusively to the Up and Down Quark Masses and Charges, the Fermi vev, and the CKM Quark Mixing Matrix
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Recall,
2013 |
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[15]
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Fitting the 2 H, 3 H, 3 He, 4 He Binding Energies and the Neutron minus Proton Mass Difference to Parts-Per-Million based Exclusively on the Up and Down Quark Masses
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NULL
2013 |
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[16]
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Fitting the 6 Li, 7 Li, 7 Be and 8 Be Binding Energies to High Precision based Exclusively on the Up and Down Quark Masses
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Energy,
2013 |
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[17]
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Fitting the 2H, 3H, 3He, 4He Binding Energies and the Neutron minus Proton Mass Difference to Parts-Per-Million based Exclusively on the Up and Down …
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2013 |
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[18]
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Fitting the Neutron and Proton Masses Within Experimental Errors Exclusively to the up and Down Quark Masses and Charges, the Fermi Vev, and the …
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Recall,
2013 |
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[1]
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On the Role of Einstein–Cartan Gravity in Fundamental Particle Physics
Universe,
2020
DOI:10.3390/universe6080112
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[2]
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Fundamental Fermion Interactions via Vector Bosons of Unified SU(2)⊗SU(4) Gauge Fields
Frontiers in Physics,
2016
DOI:10.3389/fphy.2016.00005
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[3]
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Fermion unification model based on the intrinsic SU(8) symmetry of a generalized Dirac equation
Frontiers in Physics,
2015
DOI:10.3389/fphy.2015.00082
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[4]
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Predicting the Neutron and Proton Masses Based on Baryons which Are Yang-Mills Magnetic Monopoles and Koide Mass Triplets
Journal of Modern Physics,
2013
DOI:10.4236/jmp.2013.44A013
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