16 pages, 2 figures- Submitted to Physica ScriptaWe are used to describe the detection of light in terms of particles and its propagation from the source to the detection, by waves. For instance, the slowing down of light in a transparent medium is always explained within the electromagnetic wave framework. We propose to approach that phenomenon through a purely corpuscular description. We find expression for the refractive indices which differ slightly from the usual Maxwell wave approach. We thus compare these expressions against experimental refractive indices and we show that both reproduce well the data. We show also how this corpuscular framework gives a very natural interpretation to the self focusing Kerr effect. Finally an experime...
Diusing photons can be used to detect localize and characterize optical and dynamical spatial inho...
The mean velocity of a finite-size short light pulse in a far zone is defined as the vectorial sum o...
Optical sensing became a key technique for many measuring tasks. The manifold use of optics, however...
We propose to go away from the electromagnetic wave description of light and to explain through a pu...
The aim of this investigation is to reveal the relationship between speed of light and the density o...
The supposed supraluminal velocities of light are caused above all by interaction of matter with ele...
Introduction We have reminded ourselves that Maxwell's equations tell us that electromagnetic ...
Ever since Einstein’s special relativity in 1905, the principle of invariant light speed in vacuum h...
Attempts to explain the refraction of light in dispersive media in terms of a photon or "corpuscular...
The development of the study of light scattering, from the early work of Stokes and Rayleigh to the ...
Abstract: The objective of the work is to reveal the Association of special theory of relativity wit...
It is proposed that a macroscopic theory of propagation and scattering of light through random media...
A path integral formalism is used to describe the propagation of photons through a transparent mediu...
Special Relativity (SR) is the cornerstone for modern physics and for variety of applications. SR is...
Although the theory of light seems completed and many believe that the behavior of light has been ac...
Diusing photons can be used to detect localize and characterize optical and dynamical spatial inho...
The mean velocity of a finite-size short light pulse in a far zone is defined as the vectorial sum o...
Optical sensing became a key technique for many measuring tasks. The manifold use of optics, however...
We propose to go away from the electromagnetic wave description of light and to explain through a pu...
The aim of this investigation is to reveal the relationship between speed of light and the density o...
The supposed supraluminal velocities of light are caused above all by interaction of matter with ele...
Introduction We have reminded ourselves that Maxwell's equations tell us that electromagnetic ...
Ever since Einstein’s special relativity in 1905, the principle of invariant light speed in vacuum h...
Attempts to explain the refraction of light in dispersive media in terms of a photon or "corpuscular...
The development of the study of light scattering, from the early work of Stokes and Rayleigh to the ...
Abstract: The objective of the work is to reveal the Association of special theory of relativity wit...
It is proposed that a macroscopic theory of propagation and scattering of light through random media...
A path integral formalism is used to describe the propagation of photons through a transparent mediu...
Special Relativity (SR) is the cornerstone for modern physics and for variety of applications. SR is...
Although the theory of light seems completed and many believe that the behavior of light has been ac...
Diusing photons can be used to detect localize and characterize optical and dynamical spatial inho...
The mean velocity of a finite-size short light pulse in a far zone is defined as the vectorial sum o...
Optical sensing became a key technique for many measuring tasks. The manifold use of optics, however...