Pasquale Acquaro - Academia.edu (original) (raw)

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Papers by Pasquale Acquaro

Frontiers in Sensors, 2016

In this work, I propose two new equations which provide very useful information on how they are s... more In this work, I propose two new equations which provide very useful information on how they are structured photons. These equations tells us that the photon behaves like a true capacitor and it informs us as well that the energy of a photon is a function of its voltage, its electric field, its magnetic field, the module Poynting, photon volume, the frequency and its wavelength. In this equation, it also presents the electrical charge unitary, the radius of photon and the radius of its core. These equations are also a function of the mass density of the photon, of its mass and of 7 physical constants. The energy thus calculated corresponds to the equation e = mc 2 and this clearly indicates that the equations proposed are able to provide all the information about the photon which until now has been ignored. A photon can behave like a capacitor if it has a core which acts as a positively charged electrode. This capacitor, which may be called " photonic capacitor " , also has a negative electrical charge that rotates at the speed of light on the shell of the photon. Both the core of photon that the space between it and the shell are constituted by quarks, antiquarks an gluons degraded. About one microsecond after the Big Bang, when the universe has created ordinary matter, the core of the photons, that were present then, consisting of two up quarks and a down quark and gluons. The image that provides the capacitor photonic allows us to fully understand structure of a photon. The photon behaves simultaneously by wave and particle.

In this work we demonstrate that photons, contrary to what is believed, have a mass directly prop... more In this work we demonstrate that photons, contrary to what is believed, have a mass directly proportional to their frequency. This mass is justified by the combination of 32 constants of physics that I have managed to achieve. The attribution of a mass to the photon is descended from equations, which validates and also demonstrates that it is necessary to define physical concepts such as force and momentum and can justify the increase in mass which is suffered by the particles that are accelerated. However, a photon possesses not only a mass but also has a wavelength that corresponds to length of its radius. If a photon has a mass and radius, it also possesses a density which gives it a spatial dimension. This spatial dimension is a factor that affects the passage of a photon through a narrow and that may explain the behavior of laser beans and future photonic circuits. From what previously reported, we understand that the most energetic photons, having a mass greater than that possessed by the less energetic photons, are denser than the latter and then take up less space. We observe, in the end, that each photon which is formed by energy and matter, also has an energy density. This density corresponds to what Stefan and Boltzmann have attributed to the bodies blacks. This result is extremely important because it shows that the black body radiation is composed of photons that have a spatial dimension.

Frontiers in Sensors, 2016

In this work, I propose two new equations which provide very useful information on how they are s... more In this work, I propose two new equations which provide very useful information on how they are structured photons. These equations tells us that the photon behaves like a true capacitor and it informs us as well that the energy of a photon is a function of its voltage, its electric field, its magnetic field, the module Poynting, photon volume, the frequency and its wavelength. In this equation, it also presents the electrical charge unitary, the radius of photon and the radius of its core. These equations are also a function of the mass density of the photon, of its mass and of 7 physical constants. The energy thus calculated corresponds to the equation e = mc 2 and this clearly indicates that the equations proposed are able to provide all the information about the photon which until now has been ignored. A photon can behave like a capacitor if it has a core which acts as a positively charged electrode. This capacitor, which may be called " photonic capacitor " , also has a negative electrical charge that rotates at the speed of light on the shell of the photon. Both the core of photon that the space between it and the shell are constituted by quarks, antiquarks an gluons degraded. About one microsecond after the Big Bang, when the universe has created ordinary matter, the core of the photons, that were present then, consisting of two up quarks and a down quark and gluons. The image that provides the capacitor photonic allows us to fully understand structure of a photon. The photon behaves simultaneously by wave and particle.

In this work we demonstrate that photons, contrary to what is believed, have a mass directly prop... more In this work we demonstrate that photons, contrary to what is believed, have a mass directly proportional to their frequency. This mass is justified by the combination of 32 constants of physics that I have managed to achieve. The attribution of a mass to the photon is descended from equations, which validates and also demonstrates that it is necessary to define physical concepts such as force and momentum and can justify the increase in mass which is suffered by the particles that are accelerated. However, a photon possesses not only a mass but also has a wavelength that corresponds to length of its radius. If a photon has a mass and radius, it also possesses a density which gives it a spatial dimension. This spatial dimension is a factor that affects the passage of a photon through a narrow and that may explain the behavior of laser beans and future photonic circuits. From what previously reported, we understand that the most energetic photons, having a mass greater than that possessed by the less energetic photons, are denser than the latter and then take up less space. We observe, in the end, that each photon which is formed by energy and matter, also has an energy density. This density corresponds to what Stefan and Boltzmann have attributed to the bodies blacks. This result is extremely important because it shows that the black body radiation is composed of photons that have a spatial dimension.