The Transformation of LIGHT into MATTER

Within the scope of this article, LIGHT has been considered as any arbitrary Electromagnetic Radiation within a very wide frequency range, because during the transformation from Visible Light into the Gravitational Electromagnetic Confinement, the frequency changes in a very wide range. This frequency transformation is possible because of the combined Lorentz / Doppler-Effect transformation during the collapse (contraction) of the radiation when the Gravitational Electromagnetic Confinement has been formed (Implosion of Visible Light). Within the scope of this article MATTER is considered to be any kind of 3-dimensional confined (Electromagnetic) energy. The inner structure of a photon is based on a 3dimensional anisotropic equilibrium within the electromagnetic pulses in which an equilibrium does exist for the Electric and the Magnetic Fields separately generated by the pulses. A photon cannot be considered as a particle. Because particles are 3-dimensional confinements. Photons are anisotropic (in 1 and 2 dimension a particle and in the 3 dimension a wave) confinements of electromagnetic pulses, generated during the energy transitions within the atoms. Photons are 2-dimensional confinements of electromagnetic energy and demonstrate the property of inertia (electromagnetic mass) in the 2 directions of confinement. In the 3 direction, the direction of propagation, photons can only be considered as an electromagnetic wave and for that reason do not demonstrate the property of inertia. Electromagnetic waves cannot be accelerated or decelerated because the speed of light is a universal constant. For that reason, photons interact with a gravitational field in an anisotropic way. Due to a gravitational field, photons can be accelerated or decelerated in the directions perpendicular to the direction of propagation and follow a curved path. But a gravitational field in the direction of propagation will have no impact on the speed of the photons, which will remain the unchanged universal constant, the speed of light. Photonics is the physical science of light based on the concept of “photons” introduced by Albert Einstein in the early 20 century. Einstein introduced this concept in the “particle-wave duality” discussion with Niels Bohr to demonstrate that even light has particle properties (mass and momentum) and wave properties (frequency). That concept became a metaphor and from that time on a beam of light has been generally considered as a beam of particles (photons). Which is a wrong understanding. Light particles do not exist. Photons are nothing else but electromagnetic complex wave configurations and light particles are not like “particles” but separated electromagnetic wave packages, 2-dimensionally confined in the directions perpendicular to the direction of propagation and in a perfect equilibrium with the radiation pressure and the inertia of electromagnetic energy in the forward direction, controlling the speed of light. This new theory will explain how electromagnetic wave packages demonstrate inertia, mass and momentum and which forces keep the wave packages together in a way that they can be measured like particles with their own specific mass and momentum. All we know about light, and in generally about any electromagnetic field configuration, has been

Within the scope of this article, LIGHT has been considered as any arbitrary Electromagnetic Radiation within a very wide frequency range, because during the transformation from Visible Light into the Gravitational Electromagnetic Confinement, the frequency changes in a very wide range. This frequency transformation is possible because of the combined Lorentz / Doppler-Effect transformation during the collapse (contraction) of the radiation when the Gravitational Electromagnetic Confinement has been formed (Implosion of Visible Light). Within the scope of this article MATTER is considered to be any kind of 3-dimensional confined (Electromagnetic) energy. The inner structure of a photon is based on a 3dimensional anisotropic equilibrium within the electromagnetic pulses in which an equilibrium does exist for the Electric and the Magnetic Fields separately generated by the pulses. A photon cannot be considered as a particle. Because particles are 3-dimensional confinements. Photons are anisotropic (in 1 st and 2 nd dimension a particle and in the 3 rd dimension a wave) confinements of electromagnetic pulses, generated during the energy transitions within the atoms. Photons are 2-dimensional confinements of electromagnetic energy and demonstrate the property of inertia (electromagnetic mass) in the 2 directions of confinement. In the 3 rd direction, the direction of propagation, photons can only be considered as an electromagnetic wave and for that reason do not demonstrate the property of inertia. Electromagnetic waves cannot be accelerated or decelerated because the speed of light is a universal constant. For that reason, photons interact with a gravitational field in an anisotropic way. Due to a gravitational field, photons can be accelerated or decelerated in the directions perpendicular to the direction of propagation and follow a curved path. But a gravitational field in the direction of propagation will have no impact on the speed of the photons, which will remain the unchanged universal constant, the speed of light. Photonics is the physical science of light based on the concept of "photons" introduced by Albert Einstein in the early 20 th century. Einstein introduced this concept in the "particle-wave duality" discussion with Niels Bohr to demonstrate that even light has particle properties (mass and momentum) and wave properties (frequency). That concept became a metaphor and from that time on a beam of light has been generally considered as a beam of particles (photons). Which is a wrong understanding. Light particles do not exist. Photons are nothing else but electromagnetic complex wave configurations and light particles are not like "particles" but separated electromagnetic wave packages, 2-dimensionally confined in the directions perpendicular to the direction of propagation and in a perfect equilibrium with the radiation pressure and the inertia of electromagnetic energy in the forward direction, controlling the speed of light. This new theory will explain how electromagnetic wave packages demonstrate inertia, mass and momentum and which forces keep the wave packages together in a way that they can be measured like particles with their own specific mass and momentum. All we know about light, and in generally about any electromagnetic field configuration, has been 1. Introduction: . The inner structure of a photon is based on a 3-dimensional anisotropic equilibrium within the electromagnetic pulses in which an equilibrium does exist for the Electric and the Magnetic Fields separately generated by the pulses. A photon cannot be considered as a particle. Because particles are 3-dimensional confinements. Photons are anisotropic (in 1 st and 2 nd dimension a particle and in the 3 rd dimension a wave) confinements of electromagnetic pulses, generated during the energy transitions within the atoms. Photons are 2-dimensional confinements of electromagnetic energy and demonstrate the property of inertia (electromagnetic mass) in the 2 directions of confinement. In the 3 rd direction, the direction of propagation, photons can only be considered as an electromagnetic wave and for that reason do not demonstrate the property of inertia. All we know about light, and in general about any electromagnetic field configuration, has been based only on two fundamental theories. James Clerk Maxwell introduced in 1865 the "Theory of Electrodynamics" with the publication: "A Dynamical Theory of the Electromagnetic Field" and Albert Einstein introduced in 1905 the "Theory of Special Relativity" with the publication: "On the Electrodynamics of Moving Bodies" and in 1913 the "Theory of General Relativity" with the publication "Outline of a Generalized Theory of Relativity and of a Theory of Gravitation". However, both theories are not capable to explain the property of electromagnetic mass and in specific the anisotropy of the phenomenon of electromagnetic mass. To understand what electromagnetic inertia and the corresponding electromagnetic mass is and how the anisotropy of electromagnetic mass can be explained and how it has to be defined, a New Theory about 3 Light has to be developed. A part of this New Theory about Light will be published in this article.
The New Theory about Light has been based on one single fundamental property of our Universe. The unique property that there has always been, is always and will always be a perfect equilibrium within our Universe. Isaac Newton has discovered this fundamental physical law already 300 years ago by his third law in physics. "For every action there is an equal and opposite reaction". In the New Theory this law of Equilibrium has been extended for any arbitrary Electromagnetic Field Configuration, which requires the fundamental Universal Property: "The total algebraic sum of all force densities will always equal zero at any time at any spatial coordinate in any spatial direction".
To develop a set of 4 electromagnetic equations, describing all the force densities within any arbitrary electromagnetic field configuration, the Divergence of the 4-Dimensional Stress-Energy Tensor has been taken, resulting in the 4-Dimensional Electromagnetic Vector Equation with the fundamental requirement: "The the total algebraic sum of all force densities equals zero at any time at any spatial coordinate in any spatial direction"

The Unified 4-Dimensional Hyperspace
Equilibrium Equation (Newton's Law in 4 Dimensions): The 4-dimensional Electromagnetic "Maxwell Tensor" has been defined by: The 4-dimensional Electromagnetic "Energy Momentum Tensor" has been defined by: The 4-dimensional divergence of the Energy Momentum Tensor equals the 4-dimensional Force Density 4-vector: The new theory has been based on the fundamental concept of Harmony in which all force densities in the Universe have been counter balanced by equal and opposite directed force densities resulting in a net force density equals zero (Newton's 3 rd law) and a final set of 4 Electromagnetic Equations, representing the 4-Dimensional equation of Newton (expressed in force densities) applied to an electromagnetic field, results in: In the absence of any Gravity, the force density f a in the 3 directions of the 3 coordinates of the chosen 3-coordinate system follows from the (4-dimensional) Divergence of the (4dimensional) Stress Energy Tensor (8,9,38) (3). 4 The Divergence of a Vector equals a Scalar.  ), which is the 4 th term of Newton's equation.
To calculate the equilibrium conditions to present the force densities in the Electromagnetic Field Configuration, the first 3 terms of the 4-dimensional Force-density vector are being used. By re-arranging the first 3 terms of the (4-dimensional Divergence) of the (4dimensional) Stress Energy Tensor (4) results in equation (5) in the spatial directions (x1,x2,x3) for the 3-dimensional force density f a within the Electromagnetic Field Configuration which is an improved version of Maxwell's 4 equations describing in a classical way the electromagnetic field.
Equation (5) in the 3 spatial directions (x1,x2,x3) represents the 3-dimensional force density f a in a coordinate-free vector equation in the absence of any Gravity, which is the 3 Dimensional representation of Newton's 3 rd law expressed in electromagnetic force densities within an arbitrary electromagnetic field configuration and simultaneously represents the improved version of Maxwell's 4 equations.
Equation (5) is a much more powerful equation than the well-known 4 Maxwell equations and offers solutions for many physically well-known electromagnetic field configurations like a LASER beam and the projection of a slide on a screen which cannot be mathematically described by Maxwell's equations. Because LASER beams and projected images can never be divergence free for the electric field and/or the magnetic field intensities at any place at any time.
The scope of Newton's 3 rd law (the algebraic sum of all the forces equals zero) has been underestimated. Newton's 3 rd law expressed in force densities and applied to the electromagnetic force densities within a beam of light results in a much more powerful equation than the well-known 4 Maxwell equations and also completely includes all the possible solutions of the Maxwell equations.
According Newton's 3 rd law, the fundamental requirement of a perfect equilibrium at any place at any time in any direction, the algebraic sum of all the different force densities f has to be equal zero for any physical possible electromagnetic field configuration (particles and fields).
It is fundamental to realize that 3 different kind of separate interactions of the force densities in (5) An electromagnetic field which is in a perfect equilibrium with itself and its surrounding at any space and time in any direction, fulfills the necessary requirements for the physical possibility of the existence of this field. Under that condition Equation (4) transforms into the "Unified 4-Dimensional Hyperspace Equilibrium Equation" (7) which is the 4-Dimensional representation of Newton's 3 rd Law expressed in electromagnetic force densities.
To extend Field Equation (5) into an equilibrium within a multi-dimensional curved Space-Time continuum unifying different fields like gravity and electromagnetism, the transformation has been realized by the transformation of the resulting force-densities within the 4-Dimensional Space-Time continuum. The Unification of the Electromagnetic Fields

3-Dimensional Space Domain
with the Gravitational fields results in the "Relativistic Gravitational Electromagnetic Equilibrium Equation" (RGEE) within a gravitational field g in the 3-dimensional (spatial) representation: Substituting (11) and (12) in the 4 th term (Energy-Time domain) in equation (7) To transform the electromagnetic vector wave function  into a scalar (spinor or onedimensional matrix representation), the Pauli spin matrices  and the following matrices (Ref. [10] page 213, equation (99) have been introduced: Then equation (13) can be rewritten as the 4-Dimensional Hyperspace Equilibrium Dirac Equation (Newton's 3 rd Law in 4 Dimensions in a quantum mechanical presentation) (15): The 4 th term in the Energy-Time domain, described in equation (7) represents the relativistic quantum mechanical Dirac equation (15) (which equals equation (102) page 213 in Ref. [10]).
The required Electromagnetic Field Configuration for a perfect Equilibrium in Space and Time for the total algebraic sum of all the force densities being involved (electromagnetic radiation pressure, electromagnetic inertia and electromagnetic interaction) follows from the "Unified 4-Dimensional Hyperspace Equilibrium Equation" (5). 9 3.1 The propagation of a beam of light in one single direction with an arbitrary electromagnetic intensity division in the plane perpendicular to the direction of propagation: The first example for the many possible Electromagnetic Field Configuration as a solution of the "Unified 4-Dimensional Hyperspace Equilibrium Equation" represents a beam of light propagating in the z-direction and an arbitrary division f(x,y) of intensity in the (x,y) plane.
In which 1 K is an arbitrary constant. For the divergence-free function ( )  James Clerk Maxwell (1831-1879) was one of the greatest scientists who have ever lived. To him we owe the most significant discovery of our age -the theory of electromagnetism in which theory the electric field and the magnetic field has been unified as one physical phenomenon. He is rightly acclaimed as the father of modern physics. He also made fundamental contributions to mathematics, astronomy and engineering.
Albert Einstein said: "The special theory of relativity owes its origins to Maxwell's equations of the electromagnetic field." Einstein also said: "Since Maxwell's time, physical reality has been thought of as represented by continuous fields, and not capable of any mechanical interpretation (Ref. [12] - [15]). This change in the conception of reality is the most profound and the most fruitful that physics has experienced since the time of Newton" Einstein called James Clerk Maxwell the greatest physicists of his century.
And indeed, James Clerk Maxwell fully deserves all the credits that has been given to him.
But we should not forget Isaac Newton. Because Isaac Newton has discovered the most fundamental law of our universe. The fundamental law of Equilibrium. And on this classical fundamental law of Equilibrium, the "New Theory" has been grounded. And based on that single law of Equilibrium the "New Theory" is able to offer mathematical solutions where In general a LASER beam can be described with a Gaussian intensity division for the electromagnetic field in the plane perpendicular to the direction of propagation.

Figure 1. Electromagnetic Field Intensity with a Gaussian division
The required Electromagnetic Field Configuration (Ref. [16], [17]) (Ref. https://doi.or/10.31219/osf.io/gbn4p Page 8) , which is a mathematical solution of the "Unified 4-Dimensional Hyperspace Equilibrium Equation" (5) equals in Cartesian x y z t for the Electric Field Intensity components e ( ) , , , t x y z : The required Electromagnetic Field Configuration (Ref. [16], [17]) for a perfect Equilibrium in Space and Time follows from the dynamic equilibrium equation (5) In which And the Divergence of the Magnetic field intensity does not equal zero.

Electromagnetic Mass (Inertia):
In a classical way mass (inertia) has been defined by Newton's 2 nd law. Einstein already discovered that mass (inertia, m) and energy (W) are related by W = m c 2 . In this chapter a new definition of mass will be represented which is based on the relativistic changes in the radiation pressure of confined electromagnetic radiation during acceleration or deceleration.

Confined Electromagnetic Mass (Inertia):
The definition of mass is related to concept of inertia, defined by Newton's second law. For this reason, free electromagnetic radiation cannot be related to the concept of mass because it is impossible to accelerate or to decelerate free electromagnetic radiation. The speed of light is a universal constant. Only confined electromagnetic radiation can be accelerated or decelerated and for this reason electromagnetic mass (inertia) can only be assigned to confined electromagnetic radiation.

The Origin of Electromagnetic Mass
(Inertia): Newton described in his second law of motion the classical definition of mass (inertia). However, it is impossible to calculate with Newton's second law of motion the (electromagnetic) mass of a beam of light. Because the speed of light is a universal constant which follows from Albert Einstein's Theory of Special Relativity, it is impossible to accelerate or to slow down a beam of light and for that reason it is impossible to determine the electromagnetic mass of a beam of light (free electromagnetic radiation) by Newton's second law.
To calculate the electromagnetic mass of free or confined electromagnetic radiation, the fundamental concept of the New Theory has been used that the Universe is in a perfect Equilibrium and that any electromagnetic field configuration is in a perfect equilibrium with itself and its surrounding. From this fundamental concept follows a different definition of (confined) electromagnetic mass.
Electromagnetic mass (or inertia) has been determined by the relativistic Lorentz transformation of the radiation pressures in all different directions and the disturbance of a uniform motion (or position at rest) of confined electromagnetic radiation results in a relativistic effect which we measure (experience) as electromagnetic mass (inertia).
The mass in [kg] of an object will be generally measured by acceleration (or deceleration) of the object according Newton's second law of motion. In the theory of special relativity, the speed of light is a fundamental constant and the intensity of the light is not a universal constant.
The calculate the relativistic mass of Confined Electromagnetic Radiation, we start with a thought experiment in which a beam of light is propagating between two 100 % reflecting mirrors, indicated as Mirror A and Mirror B. Both mirrors are part of a rigid construction and the relative velocity between both mirrors always equals zero. The results of this calculation will be be generalized for any kind of electromagnetic radiation which has been confined by its own electromagnetic and gravitational field. When the speed of the observer has the same speed as the speed of the light source, then the observer and the light source are relative at rest. And the same light intensity will be measured at the location of the emitter and at the location of the observer.
When the observer moves towards the emitter, the intensity of the light at the location of the observer will increase with ( ) according the Lorentz transformation in which "v" is the relative velocity between emitter and observer . At low velocities the term  will equal 1.
When the observer moves away from the emitter, the intensity of the light at the location of the observer will decrease with ( ) according the Lorentz transformation. At low velocities the term  will equal 1.
When light is confined between two 100 % reflecting mirrors, then we can conclude that the speed of both mirrors will always be equal, relative to each other. And at uniform speed, the radiation pressures on both mirrors will be equal and both opposite directed radiation pressures will neutralize.
During acceleration, it will take time for the light to travel with the speed of light between both mirrors. When we consider one mirror as the emitter and the opposite mirror as the observer, we can conclude that the speed of the emitter will be different (when the beam of light leaves the emitter) than the speed of the observer (when the beam of light reaches the 14 observer) because of the time interval, needed for the beam of light to propagate from emitter to observer during the acceleration.
During the acceleration, both opposite oriented radiation pressures on both mirrors will not be equal anymore and they will not neutralize each other anymore. During acceleration, there will be a resulting force according Newton's second law of motion caused by both different radiation pressures.
For the first step in this calculation an imaginary experiment has been used. Two 100 % reflecting mirrors B and A (both in the x-y plane and without any mass) are placed opposite each other at a distance x  ( Ref [10], page 206, figure 1 ). A single harmonic electromagnetic wave has been confined between both mirrors. Between both mirrors a "Standing Electromagnetic Wave" appears which has been formed by two waves travelling in opposite directions along the z-axis.
The Poynting vector corresponding with the electromagnetic wave propagating along the zaxis in the + direction (positive direction of the z-axis) has been indicated as S = E H + + +  and the Poynting vector corresponding with the electromagnetic wave propagating along the z-axis in the -direction (opposite direction) has been indicated as The system is at rest. The radiation pressures, caused by the confined electromagnetic radiation, on both mirrors A and B are opposite and equal in magnitude: Einstein has formulated this very well. "Velocities are always relative" .

The radiation pressure on Mirror A, when
Mirror A moves with a velocity v in the direction of the positive z-axis: When the system of "Two Mirrors B -A" moves in the direction of the positive z-axis, Mirror A moves in the direction of the positive z-axis and the Poynting vector = E H S + + +  will decrease according the Lorentz transformation (Ref. [11], page 56 equation (27)).
When the system of "Two Mirrors B -A" moves in the direction of the positive z-axis, Mirror A moves in the direction of the positive z-axis the Poynting vector = E H S − − −  will increase according the Lorentz transformation ( ref. [11], page 56 equation (28)).
( ) The total radiation pressure, caused by the confined electromagnetic radiation, on mirror A equals: ( ) 16 When the system of "Two Mirrors B -A" moves in the direction of the positive z-axis, Mirror A moves in the direction of the positive z-axis the Poynting vector S = E H + + +  will increase according the Lorentz transformation (Ref. [11], page 57 equation (31)).

Newton's second Law of Motion (Inertia) for
Confined Electromagnetic Radiation: When the system of "Two Mirrors B -A" accelerates, the velocity increases with v  in a time interval t  . At time t the radiation pressures on mirror A and mirror B are presented in [10]) and [11]. At time t + t  the radiation pressures on Mirror A and Mirror B will different: The radiation pressure at time t + t  caused by the confined electromagnetic radiation, on mirror A equals (Ref. [11], page 59 equation (33)): The radiation pressure at time t + t  caused by the confined electromagnetic radiation, on mirror B equals (Ref. [11], page 59 equation (34)): has not changed.
The radiation pressures on Mirror A and Mirror B do not counterbalance each other anymore and the resulting radiation pressure equals (Ref. [11], page 60 equation (35)): Equation (31) can be written as (Ref. [11], page 60 equation (36)) ( ) In which the acceleration Now we can consider electromagnetic confinements without the use of mirrors but electromagnetic confinements through electromagnetic gravitational interaction. By superposition and integration over arbitrary surfaces it is possible to prove that all confined electromagnetic radiation equals (32) and represents electromagnetic mass and follows Newton's second law of motion (F = m a).

Longitudinal
Mass. The Real Light Intensity of the Sun, measured in our Solar: System, including Electromagnetic Gravitational Conversion (EMGC) When a beam of light leaves the surface of the sun, the light will travel in the radial direction of the radial gravitational field caused by the sun. This experiment is comparable with throwing up a ball in the direction of the gravitational field on earth. During the rising in height, the kinetic energy of the ball will be transformed into potential energy. The speed of the ball slows down, becomes zero, and during the fall the kinetic potential energy will be transformed again into kinetic energy and the speed of the ball increase again.
Something comparable happens with a beam of light leaving the sun in the direction of the (radial) gravitational field of the sun. But because the speed of light is a universal constant, not the speed of light will be transferred into potential energy, but the electromagnetic energy of the beam of light will be transformed into potential energy. During the time the beam of light leaves the sun, the intensity of the beam of light will become less and the potential energy will increase with the same amount. When a beam of light propagates towards the sun, the electromagnetic field intensity will increase while the potential energy decreases with the same amount.
Equation (33) Which acts along the radial-direction while the electromagnetic wave is also propagating in the radial-direction.
When a light beam leaves the surface of the sun, the intensity will decrease (Ref. https://doi.or/10.31219/osf.io/gbn4p Page 16) according (8). At earth, the measured intensity (Ref. [11], page 29) will be according (8): A beam of light represents an amount of electromagnetic energy. Which equals an amount of electromagnetic mass. This amount of electromagnetic mass is moving with the speed of light in the opposite direction of a (radial) gravitational field and gains potential energy. Because the law of conservation of energy, a part of the electromagnetic energy of the light beam has to be converted into potential energy according equations (33) and (34). Which has been presented in Figure 2, in which the Electromagnetic Gravitational Conversion term has been plotted as a function of the distance to the source of the gravitational field.
This means that the real intensity of the light at the surface of the sun is about 4 times higher than the intensity which would have been calculated in a classical way from the sunlight intensity measured on earth, due to Electromagnetic Gravitational Conversion.
Equations (33) and (34) are solutions of (8) under the influence of a Radial Gravitational field with field intensity "G" that acts along the radial-direction while the electromagnetic wave is also propagating in the same radial-direction. The electromagnetic wave is propagating with the unaltered speed of light

Transversal Electromagnetic Mass (Inertia) / Confined Mass (The Impact of Gravity on Light)
In chapter 4.1.4 it has already been demonstrated that the classical concept of mass has been related to confined electromagnetic radiation. A LASER beam is an example of 2-Dimensional confinement.
It has already been demonstrated in chapter 4.2 that a LASER beam has no classical mass in the direction of propagation. In the direction of propagation an energy exchange takes place between potential energy (caused by a gravitational field in the direction of propagation) and the electromagnetic energy of the beam itself.
A Laser beam only expresses the classical property of mass in the direction transversal to the direction of propagation. For that reason, a LASER beam propagates around a source of a gravitational field like a satellite moves in a circular orbit around the earth.
We consider a beam of light approaching a strong gravitational field. (E.g. a Black Hole). According the first term in equation (8) the beam of light will follow a circular orbit around the Black Hole. The required Equilibrium will exist at the radius where the centrifugal electromagnetic inertia forces will be equal and opposite directed to the centripetal oriented gravitational forces on the electromagnetic mass. Figure 3 represents the orbit (colored red) of a LASER beam around a uniform intense gravitational field (Black Hole)

Figure 3. LASER beam around a Black Hole
In Figure 3 "the term S  divided by a time interval t  " equals: In which "a" represents the radial acceleration and is part of Newton's second law of motion in the radial direction. Because the beam of light has been confined in the radial direction, it demonstrates in the radial direction the property of inertia (electromagnetic mass) and interacts with a gravitational field according Newton's second law of motion. The whole Universe is in a perfect Equilibrium. This fundamental property of Equilibrium has been extended to a 4-dimensional Hyperspace Continuum in which a perfect equilibrium persists in any of the 4 coordinate directions.
The requirement of a 4-dimensional Equilibrium (Ref. represents the "Unification of (quantum mechanical) De Broglie Waves and Electromagnetic Waves". Solving these 4 simultaneous equations (7) offers the possibility to find answers to the fundamental questions in physics within a quantum mechanical 4-Dimensional Frame-Work. Every Physical Possible Electro-Magnetic Field Configuration of Confinement has to be a solution of this fundamental 4-Dimensional Relativistic Dirac Equation (7). Equation (7) (7) represents Newton's 3 rd law expressed in electromagnetic force densities within an arbitrary electromagnetic field configuration (confined or free electromagnetic radiation at any arbitrary frequency. Equation (7) in the 3 spatial directions is an improved version of the wellknown Maxwell's 4 equations.

The Physical properties (inertia, mass, momentum, velocity) of the Photon.
Photons are unique confinements of Electromagnetic Radiation. They are 2-dimensional confinements of electromagnetic wave packages. The theory describes this completely. Photons can never be accelerated or decelerated (in the direction of propagation) because that is only possible with confined radiation. It is possible to accelerate or decelerate photons in the direction perpendicular to the direction of propagation (directions of confinement) but it is impossible to accelerate or decelerate photons in the direction of propagation. They will always (according the theory) propagate with the speed of light and for that reason a red shift will only be possible when the gravitational field is in a direction perpendicular to the direction of propagation As a demonstration of the power of the 4-dimensional Relativistic Dirac Equation, we observe a very basic and simple polarized laser beam with a Gaussian Intensity Division. The laser beam propagates towards the z-direction. The Electric Field "E" is oriented along the x-axis and the Magnetic Field "H" is oriented along the y-axis which has been presented in Figure 4.

Figure 4 Polarized LASER beam
The laser beam propagates towards the positive z-direction. Figure 5 represents a single shot LASER beam where the front of the LASER beam is visible.

Figure 5 Polarized LASER beam (Single Shot)
The laser beam propagates towards the positive z-direction with the speed of light. That is only possible because exactly at the speed of light there will exist a "Perfect Equilibrium" between the Electromagnetic Radiation Pressure towards the positive z-direction and the inertia term of the Electromagnetic Radiation Energy (electromagnetic mass) which has been represented by the time derivative of the "Poynting Vector" in term B-1 and is oriented along the negative z-direction. Figure 6 represents the front of the Single Shot LASER beam in which a perfect equilibrium does exist between the forward oriented radiation pressure -w  and the inertia of the electromagnetic energy

24
In the Unified 4-dimensional Equilibrium always a"Perfect Equilibrium" will exist between the Electromagnetic Radiation Pressure towards the positive z-direction and the inertia term of the Electromagnetic Radiation Energy (electromagnetic mass) which has been represented by the time derivative of the "Poynting Vector" in term B-1 and is oriented along the negative z-direction.
The inward oriented Electromagnetic Force Density in the z-direction (Electromagnetic Inertia) for every arbitrary function f(x,y,z) propagating with the speed of light 0 0 c = 1/  : Compensates the outward oriented Electromagnetic Radiation Pressure in the z-direction for every arbitrary function f(x,y,z) propagating with the speed of light The electromagnetic "Radiation Pressure" in the positive z-direction (direction of propagation) has been determined by the electromagnetic "Energy Density". The electromagnetic "Inertia Force" has been determined by the electromagnetic "Mass (Energy Density)" and the "Propagation Speed". There is only "One Exact Single Velocity" at which "Velocity" the electromagnetic "Radiation Pressure" in the in the positive z-direction perfectly counterbalances the opposite directed (negative z-direction) "Force of Inertia". That single speed has been called the "Velocity of Perfect Equilibrium" and has been called in general the "Speed of Light" and is independent of the frequency and the intensity of the electromagnetic beam of light. When a laser beam (beam of light) passes a gravitational field with acceleration "g" in the (x,y) direction (Ref [5 -8]), the radiation pressures within de the beam of light in the (x,y) plane will shift due to gravitational forces. Because according Einstein's E = mc 2 , the electromagnetic energy of the beam of light has electromagnetic mass, which will be attracted by the gravitational field. The shift in the radiation pressures in the x-y plane due to gravitational-electromagnetic interaction can only be compensated by the inertia forces within the (x,y) plane due to a circular orbit of the beam of light with the origin of the gravitational field as the center. Figure 7 represents the perfect equilibrium between the inertia force densities of the electromagnetic mass 2 1 S t c   and the centripetal oriented gravitational force density 2 w g c acting on the electromagnetic mass. The perfect equilibrium direction (Ref [9,10,12,13)where the inertia forces due to the circular orbit of the beam of light are in a perfect balance with the attractive gravitational forces, exists at one defined radius "R" of the beam of light (LASER beam), independent of the intensity of the beam of light and independent of the frequency of the beam of light. Only the acceleration "g" of the gravitational field determines the radius of equilibrium "R" In which "R" is the radius of the beam of light and "g" the acceleration of the gravitational field of the "Black Hole".

Figure 7 Polarized LASER beam around a Black Hole
The x-y plane is oriented perpendicular on the z-direction. The speed of light towards the positive z-direction equals the speed of light (the constant "c = 300.000 km/s"). But the speed of light in the x-y plane has to be exactly zero (Ref. [9,14,15). Else the diameter of the laser beam would become larger and larger during the propagation along the positive z-direction. This is only possible because the Electromagnetic confining forces B-2, B-3,B-4 and B-5 compensate exactly the outward oriented radiation pressure towards the x-dirention and the ydirection.
The Electric Radiation Pressure has been compensated by the Coulomb Force Densities within the Laser Beam 26 (43) The Electric Radiation Pressure along the x-axis has been compensated by the term B-2: The inward oriented Electric Force Density in the x-direction for every arbitrary function f(x,y,z): Compensates the outward oriented Electric Radiation Pressure in the x-direction for every arbitrary function f(x,y,z): The Electric Radiation Pressure along the y-axis has been compensated by the term B-3: The inward oriented Electric Force Density in the y-direction for every arbitrary function f(x,y,z): Compensates the outward oriented Electric Radiation Pressure in the y-direction for every arbitrary function f(x,y,z): This also is valid for a single photon. In the directions perpendicular to the direction of propagation, the electric radiation pressures (45) and (47) have been compensated completely by the electric interaction forces (44) and (46) The Magnetic Radiation Pressure along the y-axis has been compensated by the term B-4: The inward oriented Magnetic Force Density in the y-direction for every arbitrary function f(x,y,z): Compensates the outward oriented Magnetic Radiation Pressure in the y-direction for every arbitrary function f(x,y,z): The Magnetic Radiation Pressure along the x-axis has been compensated by the term B-5: The inward oriented Magnetic Force Density in the x-direction for every arbitrary function f(x,y,z): Compensates the outward oriented Magnetic Radiation Pressure in the x-direction for every arbitrary function f(x,y,z): This also is valid for a single photon. In the directions perpendicular to the direction of propagation, the magnetic radiation pressures (49) and (51) have been compensated completely by the magnetic interaction forces (48) and (51).
In which g represents the (radial oriënted) gravitational ( )   It follows from Figure 9 that the radius of the stable gravitational electromagnetic confinement equals approximately 2 x 10 -35 [m], which is the size of the Planck length. According the theory of superstrings, the fundamental constituents of reality are strings of the Planck length (about 1.62 10 -35 [m]) that vibrate at resonant frequencies. This is only possible when the wave-length of the confined radiation is smaller than de dimensions of the confinement. This requires extreme high frequencies. The transformation in frequency from visible light into the extreme high frequency of the confinement is possible because of the combined Lorentz transformation/ Doppler Effect during the collapse (contraction) of the radiation when the confinement has been formed (Implosion of Visible Light).
The "sub Max Planck's length" confinement has been described for the magnetic field intensity:  The divergence (Electric Charge Density) of the electric field intensity (electric charge density) equals: The divergence of the magnetic field intensity (magnetic monopole) equals: (2 cos( ) sin( ) cot( )) 1 (sin( ) sin( ) 1) 4 (averaged over 1 period of time) The divergence of the magnetic field intensity (magnetic monopole) equals: ( )  The divergence of the electric field intensity (electric charge density) equals: In which K1 is an arbitrary variable with a Positive (positive charge) or a Negative (negative charge) value.  In which K1 is an arbitrary variable. Because of the ( ) Cot  function, the electric divergence as well as the magnetic divergence changes from sign when the angle  varies between 0 0 until 360 0 forming electric dipoles (+ versus -) and magnetic dipoles (N versus S). 44 6.1.5 Type 5 of "Sub Max Planck Length Gravitational-Electromagnetic Confinements" {m1=0, n1=0, p1=1, q1=1} The divergence of the electric field intensity (electric charge density) equals:    The inertia of Light is not comparable with the inertia of the mechanical mass of objects like the mechanical mass we measure in mechanical experiments. The mechanical mass (inertia) of objects is isotropic and the mechanical mass of a beam of light is an anisotropic property.
The mechanical mass (inertia) of objects can be determined by Newton's second law of motion. It is impossible to accelerate or to decelerate a beam of light because the speed of light is a universal constant and for that reason it is impossible to define the mass of a beam of light in the direction of propagation with Newton's second law of motion.
However, the 2-Dimensional property of inertia related to the 2-Dimensional confinement of a beam of light perpendicular to the direction of propagation can be accelerated or decelerated in the plane perpendicular to the directions of propagation like a mechanical object and fully obeys Newton's second law of motion in these directions. In a comparable way like a satellite propagates in a circular orbit around the earth, a beam of light propagates in a circular orbit around a black hole.
In the direction of propagation of a beam of light, the beam of light cannot be accelerated or decelerated because the speed of light is a universal constant. However, like a ball losing its kinetic energy (which will be transformed into potential energy) when a ball has been thrown up from the earth (in the direction of the gravitational field), a beam of light will lose its electromagnetic energy when it moves in the direction of a gravitational field away from a black hole. The opposite effect occurs when a beam of light moves towards a black hole, its electromagnetic energy will increase like the kinetic energy of a ball increases during its falls backwards to the earth.
In both examples the beam of light, inertia (mass) becomes an an-isotropic property and behaves differently in the directions perpendicular to the direction of propagation compared to the direction of propagation.
The developments in scientific research are comparable with the Helix structure within a DNA molecule. When we consider the starting point of modern science 300 years ago when Newton published his famous laws representing classical mechanics, science has now reached in one way the same equation(s) of Newton. But nowadays at a higher level in which Newton's law has become 4-Dimensional (equation 5) and does not only represent classical mechanics but also represents classical electrodynamics, general relativity and quantum physics.