Add to ORKGWe define the width, divergence, and curvature radius for non-Gaussian and nonspherical light beams. A complex beam parameter is also defined as a function of the three previous ones. We then prove that the ABCD law remains valid for transforming the new complex beam parameter when a non-Gaussian and nonspherical, orthogonal, or cylindrical symmetric laser beam passes through a real ABCD optical system. The product of the minimum width multiplied by the divergence of the beam is invariant underABCD transformations. Some examples are given. © 1992, Optical Society of America
If the propagation of a light field can be satisfactorily described by a diffraction integral with a...
We investigate the beam width evolution of astigmatic hollow Gaussian beams propagating in highly no...
We study the propagation of generalized Bessel-Gauss beams through ABCD optical systems, starting fr...
We define the width, divergence, and curvature radius for non-Gaussian and nonspherical light beams....
We define the width, divergence, and curvature radius for non-Gaussian and nonspherical light beams....
The beam width and the angular spread of a partially coherent beam, and their transformation as the ...
Geometric relations are used to study the propagation environment of a Gaussian beam wave propagatin...
Geometric relations are used to study the propagation environment of a Gaussian beam wave propagatin...
Starting from Hermite-Gaussian beams, we generate a general class of rotationally symmetric beams. T...
We introduce a new representation of coherent laser beams that are usually described in circular cyl...
We present a theoretical study of various definitions of laser beam width in a given cross section. ...
This paper shows under what condition the well-known ABCD law — which can be applied to describe the...
We present a theoretical study of various definitions of laser beam width in a given cross section. ...
International audienceWe present a theoretical study of various definitions of laser beam width in a...
© 1991 The Optical Society of America. The research leading to this paper was supported by the Empre...
If the propagation of a light field can be satisfactorily described by a diffraction integral with a...
We investigate the beam width evolution of astigmatic hollow Gaussian beams propagating in highly no...
We study the propagation of generalized Bessel-Gauss beams through ABCD optical systems, starting fr...
We define the width, divergence, and curvature radius for non-Gaussian and nonspherical light beams....
We define the width, divergence, and curvature radius for non-Gaussian and nonspherical light beams....
The beam width and the angular spread of a partially coherent beam, and their transformation as the ...
Geometric relations are used to study the propagation environment of a Gaussian beam wave propagatin...
Geometric relations are used to study the propagation environment of a Gaussian beam wave propagatin...
Starting from Hermite-Gaussian beams, we generate a general class of rotationally symmetric beams. T...
We introduce a new representation of coherent laser beams that are usually described in circular cyl...
We present a theoretical study of various definitions of laser beam width in a given cross section. ...
This paper shows under what condition the well-known ABCD law — which can be applied to describe the...
We present a theoretical study of various definitions of laser beam width in a given cross section. ...
International audienceWe present a theoretical study of various definitions of laser beam width in a...
© 1991 The Optical Society of America. The research leading to this paper was supported by the Empre...
If the propagation of a light field can be satisfactorily described by a diffraction integral with a...
We investigate the beam width evolution of astigmatic hollow Gaussian beams propagating in highly no...
We study the propagation of generalized Bessel-Gauss beams through ABCD optical systems, starting fr...