Add to ORKGAbstract: The paper deals with scalar diffraction theory and introduces an important solution of wave equation – Gaussian beam. In practical part, approach based on Fast Fourier Transform algo-rithm is discussed. Simple program for user-friendly simulation of this approach in MATLAB was created and the results of it will be demonstrated
We present a new method of modeling imaging of laser beams in the presence of diffraction. Our metho...
Many analytical techniques exist to explore the propagation of certain laser beams in free space, or...
Based on scalar diffraction theory, we investigated far-field intensity distribution (FFID) of beam ...
This paper presents theory, calculus and technical aspects concerning building up a diffractive opti...
In (synthetic) holography and diffractive optics, the optical field is often decomposed in a set of ...
Scalar diffraction theory is usually introduced using the classical Green function approach as a sol...
Theoretical and experimental aspects of the diffraction of gaussian laser beams by the straight edge...
The diffraction effects induced by a thick holographic grating on the propagation of a finite Gaussi...
Based on scalar diffraction theory, propagation properties of beam generated by Gaussian mirror reso...
The method of summation of Gaussian beams is an effective method for the computation of scalar wave ...
Transverse optical intensity redistribution phenomena like self-focusing, self-defocusing and ring g...
The article illustrates the use of Fourier optics to describe the operation of two-beam scanning las...
The case of two identical and coaxial Gaussian beams is studied in order to consider the effects of ...
This bachelor’s thesis theoretically describes Gaussian beam, its characteristics and its passing th...
The Kirchhoff integral for diffraction in the near-forward direction is derived from the exact solut...
We present a new method of modeling imaging of laser beams in the presence of diffraction. Our metho...
Many analytical techniques exist to explore the propagation of certain laser beams in free space, or...
Based on scalar diffraction theory, we investigated far-field intensity distribution (FFID) of beam ...
This paper presents theory, calculus and technical aspects concerning building up a diffractive opti...
In (synthetic) holography and diffractive optics, the optical field is often decomposed in a set of ...
Scalar diffraction theory is usually introduced using the classical Green function approach as a sol...
Theoretical and experimental aspects of the diffraction of gaussian laser beams by the straight edge...
The diffraction effects induced by a thick holographic grating on the propagation of a finite Gaussi...
Based on scalar diffraction theory, propagation properties of beam generated by Gaussian mirror reso...
The method of summation of Gaussian beams is an effective method for the computation of scalar wave ...
Transverse optical intensity redistribution phenomena like self-focusing, self-defocusing and ring g...
The article illustrates the use of Fourier optics to describe the operation of two-beam scanning las...
The case of two identical and coaxial Gaussian beams is studied in order to consider the effects of ...
This bachelor’s thesis theoretically describes Gaussian beam, its characteristics and its passing th...
The Kirchhoff integral for diffraction in the near-forward direction is derived from the exact solut...
We present a new method of modeling imaging of laser beams in the presence of diffraction. Our metho...
Many analytical techniques exist to explore the propagation of certain laser beams in free space, or...
Based on scalar diffraction theory, we investigated far-field intensity distribution (FFID) of beam ...