ABSTRACT
Abstract: With the development of quantum mechanics, 20th century passed under the sign of ideological struggle between classicism and indeterminism in physics. I was inspired in problems of quantum mechanics by the lectures of Assen Datzeff.
My first concrete work on the problem is in 1973, when I came to receiving of field equations of Schroedinger form. There wave properties of particles were connected with the electromagnetic field of the absorbed photon, led to motion a particle, particularly an electron. Very important is the conclusion that the requirement of stationary of the field leads to Schroedinger’s equation. However, the Schroedinger equation can not give a compete description of the behavior of particles.
An idea, appeared during a tram travel, led me to 2-particle photon model, compatible with the theory of relativity. Thus a photon consists of 2 particles, moving at the velocity of light along a circular orbit. In this way I received a relation, compatible with all known properties of a photon.
My reports in the seminars on philosophical problems of physics and astronomy in Kardjali in 1985 and 1986 are the synthesis of accumulated views. It is stressed that quantum mechanics is a classical consequence. But, the field interpretation of wave properties of particles does not reject the stochastic character of their appearances. It only shows the cause of their probabilistic behavior.
The analysis of the motion along a circle or ellipse with angular momentum integer times the Dirac action constant, reveals contradictions between Heisenberg’s relations and the real connection between the mean-squared deviations of coordinates and momentum and the mean values. The fall of particles into the zeros of the wave function is a crucial experiment rejecting the basic postulate of quantum mechanics concerning relation between wave function and probability of presence.
In a note of 2006 I showed that the physical sense of the wave function is determined as early as by the definitive Schroedinger’s equation S=i.ž.log.(psi). However, all the century the physicists discussed what the wave function means.
My proof of the wave character of gravitational field and the following condition for stability orbits of planet was conclusive clarification. Transferred into atomic physics this led to deduction of Schroedinger equation by the condition of stationarity of the electromagnetic field of hydrogen atom.
The last blow is the possibility any stable material system to have its proper rules for stability, by which the hegemony of quantum picture in the microcosm ends.
Êëþ÷îâè äóìè: Quantum Mechanics, Assene Dachev, Einstein Theory; Gravity field; Shrodinger Equation.
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