HJD-PIT Project Physical Information

Interactions

Interaction between elementary objects: The interaction is described between charges, mediated by photons of electromagnetic fields and the interaction between masses, mediated between gravitons. Both types of interaction are based on the same principle: in an interaction between the photons of charges (gravitons of masses), under conditions of the principle of Hamilton, physical information is exchanged. The information, under conditions of the principle of Hamilton, is absorbed during the oscillation process by the scalar oscillators of the charge/mass-core, under change of the canonical momenta of the object. Two different kinds of interactions must be distinguished: the interaction between two objects (masses or charges) and the interaction of an object (mass or charge) in a homogeneous potential gradient (of an electric potential or a gradient of gravitation), [7].

Interaction between two charges or between two masses: In an interaction between two charges or between two masses physical information with real action is exchanged between the interaction partners. Under these conditions during interaction the principle of Hamilton is not fulfilled.

Interaction in a potential gradient: During interaction of objects with charges or masses in a homogeneous potential gradient activate virtual action is exchanged. During interaction the principle of Hamilton is fulfilled. Charges are transferred in a homogeneous potential gradient into wave properties and charges and masses are fulfilling the principle of equivalence, [6].

Interaction between radiation and vacuum: The correlation structure of Maxwell vacuum corresponds with the one of light, of electromagnetic fields and of gravitons; the structures are identical, they differ in the properties of action. An interaction of light or of the electromagnetic fields with the structures of Maxwell vacuum is a condition for the propagation of light and of the propagation of physical information in vacuum. The interaction occurs on the basis of the mechanism of superposition, entanglement and induction, [7].

Generation of electromagnetic waves: A generation of electromagnetic waves is based on the interaction between longitudinal and transversal magnetic fields. Electromagnetic waves propagate along the transversal direction of the correlation structure of photons of static Maxwell fields.

Superposition, entanglement and induction: Superposition, entanglement and induction are the three interaction mechanism between photons of light, of photons of electromagnetic fields, of gravitons and of the photons of the Maxwell vacuum. Superposition (overlap) of photons occurs without a change of currents (action) in the superimposing photons, and entanglement of photons/gravitons occurs under an algebraic change of currents, connected with a change of properties of action. Induction occurs under conditions of the principle of Hamilton snf under local formation of correlation structures of photons of vacuum.