Particle physics based on "focal point" representation of particles.

Our standard model is based on the representation of particles as isolated differential volumes in space, where the rest energy of a particle is concentrated. This representation requires the introduction of exchange particles (carriers) to explain interactions between the isolated volumes. The result is the definition of independent carriers for each of the four types of forces (interaction). This representation is common to all theories, namely the ether, the string and the standard model. The present work is based on findings of a model where subatomic particles are represented as focal points of rays of Fundamental Particles (FPs) that move from infinite to infinite. The energy of a SP is distributed on its FPs and stored there as rotation defining longitudinal and transversal angular momenta. As each subatomic particle extends over the whole space, interactions between subatomic particles are the product of the interactions of the angular momenta (vector product) of their FPs and no carriers are required. The proposed approach shows also that electrons and positrons neither attract nor repel each other for the distance between them tending to zero. Consequently the strong force doesn't exist and the assumption, that the Pauli Principle is also valid for particles at atomic nuclei is not valid. Quarks can now be seen as swarms of electrons and positrons and the fractional Q charge of a quark interpreted as the relative charge of the swarm. With no strong force, no QCD is required. More at www.odomann.com.