Formfactors of Relativistic Composite Particle Interactions in Unified Nonlinear Spinorfield Models
نویسنده
چکیده
Unified nonlinear spinorfield models are self-regularizing quantum field theories in which all observable (elementary and non-elementary) particles are assumed to be bound states of fermionic preon fields. Due to their large masses the preons themselves are confined and below the threshold of preon production the effective dynamics of the model is only concerned with bound state reactions. In preceding papers a functional energy representation, the statistical interpretation and the dynamical equations were derived and the effective dynamics for preonantipreon boson states and three preon-fermion states (with corresponding anti-fermions) was studied in the low energy limit. The transformation of the functional energy representation of the spinorfield into composite particle functional operators produced a hierarchy of effective interactions at the composite particle level, the leading terms of which are identical with the functional energy representation of a phenomenological boson-fermion coupling theory. In this paper these calculations are extended into the high energy range. This leads to formfactors for the composite particle interaction terms which are calculated in a rough approximation and which in principle are observable. In addition, the mathematical and physical interpretation of nonlocal quantum field theories and the meaning of the mapping procedure, its relativistic invariance etc. are discussed.
منابع مشابه
Yang-Mills Dynamics as Effective Nonlinear Field Theory of Composite Vector Bosons in Unified Spinorfield Models
Unified nonlinear spinorfield models are self-regularizing quantum field theories in which all observable (elementary and non-elementary) particles are assumed to be bound states of fermionic preon fields. Due to their large masses the preons themselves are confined and below the threshold of preon production the effective dynamics of the model is only concerned with bound state reactions. In p...
متن کاملProof of Renormalizability and Derivation of Dynamical Equations for Relativistic Composite Particle Systems and Reactions in Unified Field Models
I n any quantum field theory of mat ter , in part icular in quarkand subquark models, bound states have to be treated. I n coupling theories corresponding bound state equations are derived b y the Gel l -Mann-Low procedure f rom the Greenfunction hierarchy. D u e to certain presuppositions neither the derivation of such generalized Bethe-Salpeter equations nor the normal izat ion of their ampli...
متن کاملEffective Interactions of Relativistic Composite Particles in Unified Nonlinear Spinor-Field Models. I
für Naturforschung in cooperation with the Max Planck Society for the Advancement of Science under a Creative Commons Attribution 4.0 International License. Dieses Werk wurde im Jahr 2013 vom Verlag Zeitschrift für Naturforschung in Zusammenarbeit mit der Max-Planck-Gesellschaft zur Förderung der Wissenschaften e.V. digitalisiert und unter folgender Lizenz veröffentlicht: Creative Commons Namen...
متن کاملGauged Supersymmetric Generalized Nonlinear Sigma Models for Quarks and Leptons*
We consider the idea of describing quarks and leptons, and their interactions, in terms of gauged supersymmetric generalized nonlinear sigma models. It is found that the best model is the one based on the Kahler manifold E7/sU(4) X U(1)4, with an atipropriate complex structure. The isotropy representation of the manifold is sufficient for embedding three families of quarks and leptons. We as10 ...
متن کاملPoint form relativistic quantum mechanics, antiparticles and
Point form relativistic quantum mechanics, antiparticles and exchange currents. Abstract It is shown that the dynamical observables calculated with the point form rela-tivistic quantum mechanics incorporate effects of particle-antiparticle creation from the vacuum by interactions. The electromagnetic observables obtained with the point form impulse approximation include contributions from the "...
متن کامل