Volume 4, Issue 1, pages 1-35
An overview of a new theory of physical information is presented. Starting out from the Lagrange density and from commutators of communication relations of quantum mechanics, defined in a common space time point, matter, charge, radiation and vacuum are represented by three dimensional structures of four dimensional fields. With this representation their properties and their interaction can be described by physical information under conditions of the principle of Hamilton. The physical information is action described by four dimensional components of the vector potential in three dimensional structures with oscillator properties. Applying this concept the effects of quantum mechanics, of the electromagnetism and of gravitation can be described locally and causally.