The numerical simulation of the wavefronts diffracted by apertures with circular symmetry is realized by a numerical method. It is based on the angular spectrum of plane waves, which ignored the vector nature of light. The on-axial irradiance distributions of plane wavefront and Gauss wavefront diffracted by the circular aperture have been calculated along the propagation direction. Comparisons of the simulation results with the analytical results and the experimental results tell us that it is a feasible method to calculate the diffraction of apertures. (c) 2006 Published by Elsevier GmbH
This article was published in the Journal Optics and Laser Technology [ © 2005 Elsevier Ltd.] and th...
Based on the vector angular spectrum method and the stationary phase method and the fact that a circ...
This thesis is concerned with the results of the application of circle polynomials to two main proce...
Thesis (M.A.)--Boston UniversityDiffraction phenomena have been studied usually for the case when th...
Based on the importance of spherical harmonics and their applicability in many physical problems, th...
Recurring to the characteristic of Bessel function, we give the analytic expression or the Fresnel d...
The three-dimensional diffraction of a scalar plane wave through a circular aperture in an infinite ...
The diffraction field of a wave beam from a circular aperture is obtailled by using the Kirchhoff ap...
Electromagnetic wave diffraction theories for large circular, rectangular, triangular and hexagonal ...
In computational optics, numerical modeling of diffraction between arbitrary planes offers unparalle...
It is well known that “vector ” diffraction theory needs to be invoked to describe the propagation o...
A novel method for simulating field propagation is presented. The method, based on the angular spect...
PART I. Closed form solutions have been derived for the focal plane diffraction patterns of (a) a c...
Abstract—In this study, the impact of finite ground plane edge diffractions on the amplitude pattern...
The scalar wave theory is used to evaluate the expected diffraction patterns from a circular apertur...
This article was published in the Journal Optics and Laser Technology [ © 2005 Elsevier Ltd.] and th...
Based on the vector angular spectrum method and the stationary phase method and the fact that a circ...
This thesis is concerned with the results of the application of circle polynomials to two main proce...
Thesis (M.A.)--Boston UniversityDiffraction phenomena have been studied usually for the case when th...
Based on the importance of spherical harmonics and their applicability in many physical problems, th...
Recurring to the characteristic of Bessel function, we give the analytic expression or the Fresnel d...
The three-dimensional diffraction of a scalar plane wave through a circular aperture in an infinite ...
The diffraction field of a wave beam from a circular aperture is obtailled by using the Kirchhoff ap...
Electromagnetic wave diffraction theories for large circular, rectangular, triangular and hexagonal ...
In computational optics, numerical modeling of diffraction between arbitrary planes offers unparalle...
It is well known that “vector ” diffraction theory needs to be invoked to describe the propagation o...
A novel method for simulating field propagation is presented. The method, based on the angular spect...
PART I. Closed form solutions have been derived for the focal plane diffraction patterns of (a) a c...
Abstract—In this study, the impact of finite ground plane edge diffractions on the amplitude pattern...
The scalar wave theory is used to evaluate the expected diffraction patterns from a circular apertur...
This article was published in the Journal Optics and Laser Technology [ © 2005 Elsevier Ltd.] and th...
Based on the vector angular spectrum method and the stationary phase method and the fact that a circ...
This thesis is concerned with the results of the application of circle polynomials to two main proce...