Calabi-Yau Topology of Primordial Fermions  

Calabi-Yau Topology of Primordial Fermions

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作  者:Edwin Eugene Klingman Edwin Eugene Klingman(Cybernetic Micro Systems, Inc., San Gregorio, CA, USA)

机构地区:[1]Cybernetic Micro Systems, Inc., San Gregorio, CA, USA

出  处:《Journal of Modern Physics》2024年第1期132-158,共27页现代物理(英文)

摘  要:Quantum field theory creates fermions via abstract operators exciting abstract fields, with a specific field for each type of specific particle. This operator algebra lends itself well to quantum statistics, nevertheless, our physical understanding of this process is nonintuitive at best. In this paper we analyze the creation of fermions from primordial gauge field quantum gravity loops in the context of Calabi-Yau manifold theory. I extend a prior mass-gap treatment based on Yang-Mills gauge theory of higher order self-interaction to include the half-integral spin of fermions.Quantum field theory creates fermions via abstract operators exciting abstract fields, with a specific field for each type of specific particle. This operator algebra lends itself well to quantum statistics, nevertheless, our physical understanding of this process is nonintuitive at best. In this paper we analyze the creation of fermions from primordial gauge field quantum gravity loops in the context of Calabi-Yau manifold theory. I extend a prior mass-gap treatment based on Yang-Mills gauge theory of higher order self-interaction to include the half-integral spin of fermions.

关 键 词:Calabi-Yau Topology Fermion Spin Particle Genesis Primordial Field Self-Interaction Equations Yang-Mills Gravity 

分 类 号:O15[理学—数学]

 

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