Zero Point Energy & The Dirac Equation

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Zero Point Energy & The Dirac Equation
(Copyright 2007, H. Javadi & F. Forouzbakhsh - All Rights Reserved)

by H. Javadi ( a ) and F. Forouzbakhsh ( b )

a. Invited professor of the Faculty of Science at Azad Islamic University, Tehran campuses, Tehran, Iran

Javadi_hossein@hotmail.com

b. Academic Researcher, Office of the Vice Chancellor for Research and Technology, University of Tehran, Tehran, Iran

fforouz@ut.ac.ir

• •	Some particles like the photon move only with the speed of light c, in all inertial reference frames. Let's call this kind the NR particles or Never at Rest condition particles. Other particles like the electron aways move with speed v

So, there are two kinds of particles in physics;

According the above definition, photons and gravitons are NR particles, while electrons and protons are PNZRM particles.

Suppose a photon with NR mass m and energy falls toward the earth relative to an inertial reference frame on the surface. Its frequency increases from to , and a large number of gravitons enter into the structure of the photon such that . The problem is; how many gravitons enter into a photon to provide the least possible photon energy change (minimum )? Now, according to this argument, in order to calculate the number of gravitons involved in and to explain their properties, suppose a photon with frequency is formed of n1 elements, and with a frequency it contains n2 elements. These elements are not the same, because they exhibit different properties. Let us propose a matrix.

Now, according to this argument, in order to calculate the number of gravitons involved in and to explain their properties, suppose a photon with frequency is formed of n1 elements, and with a frequency it contains n2 elements. These elements are not the same, because they exhibit different properties. Let us propose a matrix.

Now we need to calculate A, B, C and D so that they satisfy the properties of a photon. When gravity works on a photon, gravitons enter into the photon and the intensity of its electric field increases.

The photon has no electrical effect; therefore A and B must carry electric field around the photon with opposite effect. So, according to the relative intensity of electric and magnetic fields , we can write;

Here is positive color-charge and is negative color-charge. In addition, in the above relation c is a mathematical constant that relates E and B in electromagnetism. So, let us show . Then the above relation becomes:

When a large count of enters into a photon, the intensity of its positive electric field increases. According to the Maxwell equations, the intensity of its magnetic field increases as well.

Also, element C must carry a magnetic effect around the positive color-charges and the same applies to the D element for the negative color-charges. Therefore, C and D are the same but with opposite direction. So, according to the relationship between the intensity of electric and magnetic fields, we can write;

Then the matrix takes the following form, here named the CPH matrix;

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