"The Spin-Charge-Family Theory Is Explaining the Origin of Families, of the Higgs and the Yukawa Couplings"
written by Norma Susana Mankoč Borštnik,
published by Journal of Modern Physics, Vol.4 No.6, 2013
has been cited by the following article(s):
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[2] Representations in Grassmann space and fermion degrees of freedom
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[3] 7 Properties of Fermions With Integer Spin Described in Grassmann Space
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[4] 9 Why Nature Made a Choice of Clifford and not Grassmann Coordinates?
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[5] Gauge fields with respect to in the Kaluza–Klein theories and in the spin-charge-family theory
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[6] The Spin-Charge-Family Theory
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[7] Gauge fields with respect to d=(3+ 1) in the Kaluza–Klein theories and in the spin-charge-family theory
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[8] Spin-charge-family theory is offering next step in understanding elementary particles and fields and correspondingly universe
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[9] THE SPIN-CHARGE-FAMILY THEORY OFFERS THE EXPLANATION FOR ALL THE ASSUMPTIONS OF THE STANDARD MODEL, FOR THE DARK MATTER, FOR THE MATTER-ANTIMATTER ASYMMETRY, FOR…, MAKING SEVERAL PREDICTIONS
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[10] Degrees of freedom of massless boson and fermion fields in any even dimension
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[11] Vector and scalar gauge fields with respect to $ d=(3+ 1) $ in Kaluza-Klein theories and in the spin-charge-family theory
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[12] The Spin-Charge-Family theory offers the explanation for all the assumptions of the Standard model, for the Dark matter, for the Matter-antimatter asymmetry, making …
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[13] Vector and Scalar Gauge Fields with Respect to d=(3+ 1) in Kaluza-Klein Theories and in the $ Spin-charge-family $$ theory$
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[14] Can spin-charge-family theory explain baryon number nonconservation?
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[15] Are superheavy stable quark clusters viable candidates for the dark matter?
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[16] The Explanation for the Origin of the Higgs Scalar and for the Yukawa Couplings by the Spin-Charge-Family Theory
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[17] New experimental data for the quarks mixing matrix are in better agreement with the spin-charge-family theory predictions
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[18] The spin-charge-family theory explains why are the scalar fields (the Higgs) doublets with respect to the weak and the hyper charge
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[19] Can the spin-charge-family theory explain baryon number non conservation?
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[20] Massless and massive representations in the spinor technique
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[21] Discrete symmetries in the Kaluza-Klein theories
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[22] The explanation for the origin of the Higgs's scalar and the Yukawa couplings by the spin-charge-family theory
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[23] The spin-charge-family theory is offering an explanation for the origin of the Higgs's scalar and for the Yukawa couplings
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[24] KALUZA-KLEIN THEORY
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[25] Families of spinors in $ d=(1+ 5) $ with zweibein and two kinds of spin connection fields on an almost $ S^ 2$
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[26] Discrete symmetries in the Kaluza-Klein-like theories
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[27] Families of spinors in with zweibein and two kinds of spin connection fields on an almost
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[28] Gauge Fields With Respect to d=(3+ 1) in the Kaluza-Klein Theories and in the $ Spin $-$ charge $-$ family $ Theory
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