The paper introduces the complete model of the general astigmatic Gaussian beam as the most general case of the Gaussian beam in the fundamental mode. This includes the laws of propagation, reflection, and refraction as well as the equations for extracting from the complex-valued beam description its real-valued parameters, such as the beam spot radii and the radii of curvature of the wavefront. The suggested model is applicable to the case of an oblique incidence of the beam at any 3D surface that can be approximated by the second-order equation at the point of incidence. Thus it can be used in simulations of a large variety of 3D optical systems. The provided experimental validation of the model shows good agreement with simulations
An analytical formula for the multi-Gaussian Schell model is derived for the beam propagating in a u...
The ability to model the propagation of light is a vital element of understanding any display techno...
The form of the Gaussian beam in an anisotropic medium has been found by solution of Maxwell's equat...
The paper introduces the complete model of the general astigmatic Gaussian beam as the most general ...
A new mathematical model for the fundamental mode of a propagating Gaussian beam is presented. The m...
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...
An approximate analytic model is presented to describe spatial structure of refracted electromagneti...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
International audienceIn this article, we propose an approach in the spectral domain to treat the in...
Fundamentals of Gaussian Beam Propagation Gaussian Beams vs Plane Waves The fundamental mode Higher ...
Explicit and compact expressions describing the reflection and the transmission of a Gaussian beam b...
Gaussian beam mode analysis (GBMA) offers a more intuitive physical insight into how light beams evo...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
The vector wave equation for electromagnetic waves, when subject to a number of constraints correspo...
An analytical formula for the multi-Gaussian Schell model is derived for the beam propagating in a u...
The ability to model the propagation of light is a vital element of understanding any display techno...
The form of the Gaussian beam in an anisotropic medium has been found by solution of Maxwell's equat...
The paper introduces the complete model of the general astigmatic Gaussian beam as the most general ...
A new mathematical model for the fundamental mode of a propagating Gaussian beam is presented. The m...
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...
An approximate analytic model is presented to describe spatial structure of refracted electromagneti...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
International audienceIn this article, we propose an approach in the spectral domain to treat the in...
Fundamentals of Gaussian Beam Propagation Gaussian Beams vs Plane Waves The fundamental mode Higher ...
Explicit and compact expressions describing the reflection and the transmission of a Gaussian beam b...
Gaussian beam mode analysis (GBMA) offers a more intuitive physical insight into how light beams evo...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
The vector wave equation for electromagnetic waves, when subject to a number of constraints correspo...
An analytical formula for the multi-Gaussian Schell model is derived for the beam propagating in a u...
The ability to model the propagation of light is a vital element of understanding any display techno...
The form of the Gaussian beam in an anisotropic medium has been found by solution of Maxwell's equat...