Abstract
We present here our quantum propagation and entanglement system for virtual reality remote space computers and TVs with photonic displays in laser activated imagery. This concept is based on 1935 Einstein-Podolsky-Rosen Argument in Quantum Theory. Einstein maintains “the interpretation, according to which |ψ|² expresses the probability that this particle is found at a given point, assumes an entirely peculiar mechanism of action at a distance, which prevents the wave continuously distributed in space from producing an action in two places on the screen. Einstein continues: “in my opinion, one can remove this objection only in the following way, that one does not describe the process solely by the Schrodinger wave, but that at the same time one localizes the particle during propagation
Highlights
With applied Einstein’s concept to our 3D quantum phase space display system in which all possible states of a system are represented, with each possible state of the system corresponding to one unique point in the phase space of all possible values of position and momentum variables, where every degree of freedom or parameter of the system is represented as an axis of a multidimensional space
The concept of phase space was developed in the late 19th century by Ludwig Boltzmann, Henri Poincaré, and Willard Gibbs (Figures 1 and 2)
Equations for harmonic oscillator in 3D spherical coordinates of our 3D quantum phase space display system are in our separate paper
Summary
With applied Einstein’s concept to our 3D quantum phase space display system (see image below) in which all possible states of a system are represented, with each possible state of the system corresponding to one unique point in the phase space of all possible values of position and momentum variables, where every degree of freedom or parameter of the system is represented as an axis of a multidimensional space. Motion of a classical particle in 3-dimensional Lobachevsky and Riemann spaces is studied in the presence of an external magnetic field which is analogous to a constant uniform magnetic field in Euclidean space. In both cases three integrals of motions are constructed and equations of motion are solved exactly in the special cylindrical coordinates on the base of the method of separation of variables. Second harmonic generation (see below) with resonant enhancement is applicable to our quantum space display model discussed here (Figure 3) The nonlinearities are those whose outputs are single-valued odd functions of the inputs and are independent of frequencies of the photonic inputs. Compare our multimodal quantum loops 3D diagram in Figure 4 with Feynman diagram of quantum field geometry (Figure 6): Feynman diagram quantum field geometry To visualize the spinning nature of our multimodal quantum system in Figure 4, we show in Figure 5 the spinning central quantum spring, which sustains our quantum ball’s overall structure (Figures 6-12)
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