O deslocamento do comprimento de onda segundo a conservação da energia mecânica do fóton, em energia cinética rotacional, frente aos resultados e expectativas teóricas com interferômetros de Michelson na literatura

Abstract: Realizou-se um estudo para verificar a representação do deslocamento do comprimento de onda segundo a teoria da conservação da energia mecânica do fóton em energia cinética rotacional, na transição entre dois meios, para fótons de baixa energia. Analizou-se as estimativas segundo o pressposto teórico, para diagnóstico do número de franjas de interferência e seus deslocamentos em interferômetros de Michelson, comparando com os resultados e expectativas teóricas da literatura. O deslocamento do comprimento de on… Show more

“…In a theoretical analysis of the corpuscular behavior of light, Cardoso [13] introduces a principle for the conservation of the photon's mechanical energy, where the photon transiting between two media conserves translational energy in OAM, shifting its wavelength. Later [10], this wave displacement is verified in the prediction of interference fringes comparing to experimental data from a Michelson interferometer, verifying that the model according to the principle of conservation of the photon mechanical energy presents estimative with smaller percentage of uncertainties (< 0.5%) and smaller percentage of deviations (< 2.0%) when compared to the literature model estimative in the data representation.…”

“…such that the displacement of the wavelength characterizes the new principle of conservation of mechanical energy for the photon acoording Cardoso [13], [10], [12]:…”

“…Characterized, the relativistic moment in accordance with the principle of energy conservation of photon's mechanics [13], [10], [12], with representation of the Mikonwski momentum, we can verify the relationship directly from the Mikonwski momentum itself [3], it is:…”

“…The solution is to differentiate the effects that are in the frequency domain from those that are in the wavelength domain. In the analyzes conducted [12] over the gravitational and cosmological redshifts a Z CEF balance was suggested which weighs the different effects capable and liable on the trajectory of perform shifting the wavelength of light.…”

“…Recently, Cardoso [12] demonstrates the nature of the redshift according to the principle of conservation of the mechanical energy of the photon, presenting the gravitational redshifts (z CEF-G ) and refractive (z CEF-G ) which individually are able to describe the gravitational and cosmological redshifts keeping constant the Hubble constant. However, the author considered the composition of all the effects capable of promoting a displacement of the light's wavelength, possibles in the trajectory, presenting a balance through the redshift Z CEF , considering the Doppler effect, demonstrating that in the absence of the principle of conservation of mechanical energy, the Hubble constant must vary by small variations in the relative velocity between source-observer.…”

The Relativistic and the Hidden Momentum of Minkowski and Abraham in Relativistic Energy Wave

“…In a theoretical analysis of the corpuscular behavior of light, Cardoso [13] introduces a principle for the conservation of the photon's mechanical energy, where the photon transiting between two media conserves translational energy in OAM, shifting its wavelength. Later [10], this wave displacement is verified in the prediction of interference fringes comparing to experimental data from a Michelson interferometer, verifying that the model according to the principle of conservation of the photon mechanical energy presents estimative with smaller percentage of uncertainties (< 0.5%) and smaller percentage of deviations (< 2.0%) when compared to the literature model estimative in the data representation.…”

“…such that the displacement of the wavelength characterizes the new principle of conservation of mechanical energy for the photon acoording Cardoso [13], [10], [12]:…”

“…Characterized, the relativistic moment in accordance with the principle of energy conservation of photon's mechanics [13], [10], [12], with representation of the Mikonwski momentum, we can verify the relationship directly from the Mikonwski momentum itself [3], it is:…”

“…The solution is to differentiate the effects that are in the frequency domain from those that are in the wavelength domain. In the analyzes conducted [12] over the gravitational and cosmological redshifts a Z CEF balance was suggested which weighs the different effects capable and liable on the trajectory of perform shifting the wavelength of light.…”

“…Recently, Cardoso [12] demonstrates the nature of the redshift according to the principle of conservation of the mechanical energy of the photon, presenting the gravitational redshifts (z CEF-G ) and refractive (z CEF-G ) which individually are able to describe the gravitational and cosmological redshifts keeping constant the Hubble constant. However, the author considered the composition of all the effects capable of promoting a displacement of the light's wavelength, possibles in the trajectory, presenting a balance through the redshift Z CEF , considering the Doppler effect, demonstrating that in the absence of the principle of conservation of mechanical energy, the Hubble constant must vary by small variations in the relative velocity between source-observer.…”

The Relativistic and the Hidden Momentum of Minkowski and Abraham in Relativistic Energy Wave

Specific relativistic uncertainty in light transmission with angular orientation non-zero

The relativistic and the hidden momentum of Minkowski and Abraham in relativistic energy wave