Photony Introduction
PhotonyTM (“Photony”) is a relatively new theory that boldly looks into the smallest and the largest of physical milieu and the intertwined relationships between a). Space, Energy, Mass, and Time, b.) Elemental Particles and Chains, and c.) Electricity and Magnetism, Fields and Force. Photony is the basis for Unification originating at the beginning of time when energy first arrived and began to compress space.
What is Photony?
Photony is the study, theory, and sentience of various particle and chained entities, including constituent Photony Filaments (filaments) operating in quasistatic Planck Space as the basis for natural properties and phenomena. The Photony Model showcases filaments as primary effectors acting as substantially circular spring-like strands of energy maneuvering in a structured, yet flexible, Planck Space orthogonal cellular network. Filament spin behavior in Planck Space is the nexus of all particles’ structure as Photony spin motions, spin levels, orientations, and interlinking (chained) filament principles. The integrated filament spin tracings form an outer virtual shell, thus defining the extent of the particle while compressing the local Planck Space network. The metric that is used to quantify the compression of Planck Space is “mass.” So, it’s space first, energy second, and compression of space third as the metric behind the equivalence of mass and energy.
The particle inscribed by the filament motion may be static (stable) with no high-speed linear motion, or the filament may open at its end, producing helical traction resulting in a net linear “forward” motion. The forward motion can be at c for elementary and classical photons. Many other small particles, such as ubiquitous neutrinos, also have high-speed forward motions but slightly less than c with a mass slightly greater than zero. The Photony Particle Zoo is pictographic and shows how particles and particle families, such as fermions and bosons, are related. The particle zoo shows smaller particles emerging as larger particles while others decay or break apart due to pressure/collisions resulting in smaller particles.
A goal of the Photony Fundamentals Preview is to avoid equations as much as possible while presenting the material descriptively and pictorially. Of course, the Einstein equation; E = mc2 (although misrepresented; based on causality, it should be written as m = E/C2) is essential and fundamental to Photony Theory. This equation is presented in great detail with new insights associated with Photony regarding “equivalent mass” and the dynamics of energy-mass and mass-energy conversion. In order to comprehend the Einstein equation fully, Photony examines causality and how energy, mass, and the velocity of light relate. Photony also explains how the velocity of light is actually the “velocity of space” acting as a governor to limit the speed of high-speed particles through space requiring “least energy” as a balance between the particle’s kinetic energy and the inertial compression energy of space itself due to high-speed particle motion. Photony explains how the energy filaments comprising elementary (and other) particles can generate traction as they transition from static (stable- low speed) to dynamic (helical) motion through quasistatic (flexible) Planck Space.
Regarding electricity and magnetism, Photony explains what electric fields, magnetic fields, and electromagnetic waves are comprised of and how they are generated. First, Photony explains what charge is; as the basis for voltage as primarily a surface effect resulting in electric fields, and as a basis for current as primarily an internal effect resulting in magnetic fields. Until charge is understood regarding; what it is and how it flows, there is no basis for voltage or current and therefore no basis for static and dynamic electric or magnetic fields and no basis for electromagnetic fields. The key to understanding these phenomena is to understand the nature of electrons. Electrons are free to move in conductors (free electrons), but at a snail’s pace. Electrons are called “charge carriers,” but more accurately, electrons are charge processors. Charge is a ubiquitous collective of Photony dynamic photons swept into the toroidal opening of cyclonic electrons having virtual toroidal shells (traced out by gamma rays in rotational motion). Electrons can be aligned by charge flow and process the charge flow passing through the toroidal opening of the electron. In the case of electromagnets, the alignment only exists when DC current is flowing. In the case of permanent magnets, the alignment is only needed once since the electrons in ferromagnetic materials are not able to move linearly but with some charge flow can rotate to an aligned orientation and hold that orientation until thermal (heating beyond the Curie point) or mechanical (as in hammering or intense vibration) agitation.
It has been easy for scientists confuse “carrying” charge with attracting or processing charge within the zone, in and around the electron’s toroidal opening. The localized charge is processed in the toroidal opening resulting in interlinked chains resulting in static field “lines” for direct current (unidirectional flow). A non-axially-rotating electron results in a static field. If the electrons are aligned with the DC current flow internal to a conductor, this results in a magnetostatic field.
What a free electron can do at high speed is extrinsic rotation of the polar axis. This is caused by alternating current flow resulting in interlinked chains of elementary photons (charge) spewing forth with lengths that vary proportional to the electron’s speed of axial rotation (extrinsic spin). The electromagnetic field is lost to photonic particle spins once the axial rotation spin rate exceeds the limit of the electron to interlink at least three elementary photons (37.6 THz). From this spin rate limit (far infrared/microwave interface and beyond the spectrum becomes purely photonic which is two elementary photons interlinked and spinning extrinsically at a rate that determines the energy of the photons emitted. The end limit of this process is the generation of gamma rays, some of which travel linearly and some of which go into rotational motion, thus producing electrons and positrons.
The spectrum is described in a novel way that explains how microwaves transition to far infrared photons and how static fields break down in high voltage scenarios (e.g., lightning) become audible “static” in radio waves while other breakdown products affect visible light (lightning flash), ultraviolet (photons), x-rays (photons), and finally, gamma ray (photons). Some of the gamma ray photons are high energy photons in linear flight patterns while others may become rotational and form toroidal shaped electrons.
PhotonyTM (“Photony”) is a relatively new theory that boldly looks into the smallest and the largest of physical milieu and the intertwined relationships between a). Space, Energy, Mass, and Time, b.) Elemental Particles and Chains, and c.) Electricity and Magnetism, Fields and Force. Photony is the basis for Unification originating at the beginning of time when energy first arrived and began to compress space.
What is Photony?
Photony is the study, theory, and sentience of various particle and chained entities, including constituent Photony Filaments (filaments) operating in quasistatic Planck Space as the basis for natural properties and phenomena. The Photony Model showcases filaments as primary effectors acting as substantially circular spring-like strands of energy maneuvering in a structured, yet flexible, Planck Space orthogonal cellular network. Filament spin behavior in Planck Space is the nexus of all particles’ structure as Photony spin motions, spin levels, orientations, and interlinking (chained) filament principles. The integrated filament spin tracings form an outer virtual shell, thus defining the extent of the particle while compressing the local Planck Space network. The metric that is used to quantify the compression of Planck Space is “mass.” So, it’s space first, energy second, and compression of space third as the metric behind the equivalence of mass and energy.
The particle inscribed by the filament motion may be static (stable) with no high-speed linear motion, or the filament may open at its end, producing helical traction resulting in a net linear “forward” motion. The forward motion can be at c for elementary and classical photons. Many other small particles, such as ubiquitous neutrinos, also have high-speed forward motions but slightly less than c with a mass slightly greater than zero. The Photony Particle Zoo is pictographic and shows how particles and particle families, such as fermions and bosons, are related. The particle zoo shows smaller particles emerging as larger particles while others decay or break apart due to pressure/collisions resulting in smaller particles.
A goal of the Photony Fundamentals Preview is to avoid equations as much as possible while presenting the material descriptively and pictorially. Of course, the Einstein equation; E = mc2 (although misrepresented; based on causality, it should be written as m = E/C2) is essential and fundamental to Photony Theory. This equation is presented in great detail with new insights associated with Photony regarding “equivalent mass” and the dynamics of energy-mass and mass-energy conversion. In order to comprehend the Einstein equation fully, Photony examines causality and how energy, mass, and the velocity of light relate. Photony also explains how the velocity of light is actually the “velocity of space” acting as a governor to limit the speed of high-speed particles through space requiring “least energy” as a balance between the particle’s kinetic energy and the inertial compression energy of space itself due to high-speed particle motion. Photony explains how the energy filaments comprising elementary (and other) particles can generate traction as they transition from static (stable- low speed) to dynamic (helical) motion through quasistatic (flexible) Planck Space.
Regarding electricity and magnetism, Photony explains what electric fields, magnetic fields, and electromagnetic waves are comprised of and how they are generated. First, Photony explains what charge is; as the basis for voltage as primarily a surface effect resulting in electric fields, and as a basis for current as primarily an internal effect resulting in magnetic fields. Until charge is understood regarding; what it is and how it flows, there is no basis for voltage or current and therefore no basis for static and dynamic electric or magnetic fields and no basis for electromagnetic fields. The key to understanding these phenomena is to understand the nature of electrons. Electrons are free to move in conductors (free electrons), but at a snail’s pace. Electrons are called “charge carriers,” but more accurately, electrons are charge processors. Charge is a ubiquitous collective of Photony dynamic photons swept into the toroidal opening of cyclonic electrons having virtual toroidal shells (traced out by gamma rays in rotational motion). Electrons can be aligned by charge flow and process the charge flow passing through the toroidal opening of the electron. In the case of electromagnets, the alignment only exists when DC current is flowing. In the case of permanent magnets, the alignment is only needed once since the electrons in ferromagnetic materials are not able to move linearly but with some charge flow can rotate to an aligned orientation and hold that orientation until thermal (heating beyond the Curie point) or mechanical (as in hammering or intense vibration) agitation.
It has been easy for scientists confuse “carrying” charge with attracting or processing charge within the zone, in and around the electron’s toroidal opening. The localized charge is processed in the toroidal opening resulting in interlinked chains resulting in static field “lines” for direct current (unidirectional flow). A non-axially-rotating electron results in a static field. If the electrons are aligned with the DC current flow internal to a conductor, this results in a magnetostatic field.
What a free electron can do at high speed is extrinsic rotation of the polar axis. This is caused by alternating current flow resulting in interlinked chains of elementary photons (charge) spewing forth with lengths that vary proportional to the electron’s speed of axial rotation (extrinsic spin). The electromagnetic field is lost to photonic particle spins once the axial rotation spin rate exceeds the limit of the electron to interlink at least three elementary photons (37.6 THz). From this spin rate limit (far infrared/microwave interface and beyond the spectrum becomes purely photonic which is two elementary photons interlinked and spinning extrinsically at a rate that determines the energy of the photons emitted. The end limit of this process is the generation of gamma rays, some of which travel linearly and some of which go into rotational motion, thus producing electrons and positrons.
The spectrum is described in a novel way that explains how microwaves transition to far infrared photons and how static fields break down in high voltage scenarios (e.g., lightning) become audible “static” in radio waves while other breakdown products affect visible light (lightning flash), ultraviolet (photons), x-rays (photons), and finally, gamma ray (photons). Some of the gamma ray photons are high energy photons in linear flight patterns while others may become rotational and form toroidal shaped electrons.