The HJD Project Physical Information presents in this publication a new approach for the description of nature of elementary objects.
Classic physics and quantum mechanics describe elementary objects with a (wave) function, which represents properties and interactions of objects in dependence of space and time.
In this publication a new procedure for the description of nature is proposed, in which for elementary objects from the Lagrange density and from the communication relations of quantum mechanics four dimensional structures with oscillator properties are derived. Properties and interactions of elementary objects are determined by physical information, [1].
Characteristic property of physical information is the action, enclosed in a four dimensional correlation structure. Properties of objects and their interactions are described under a uniform law: the principle of Hamilton.
Masses, charges, radiation and vacuum are characterized by physical information and their interactions are described under the conditions of the principle of Hamilton.
The method leads to a completely new view on nature in the field of physics of elementary objects and in cosmology.
On the following pages closer information about the method and its results are described and in the appendix publications for details are compiled.
At left an example for a correlation structure of a photon of electromagnetic Maxwell fields is shown; it is a part of a photon of Maxwell vacuum. At right different modifications of the action generating oscillator are depicted; A for deactivated virtual vacuum, B for a graviton, C for real negative action of a negative charge and D for a positive action of a positive charge. Details in publications; see: Appendix