Beiträge zu Reihen-entwicklungen nach Bessel'schen Zylinderfunktionen ...

Koestler, Waldemar Karl Ernst,

January 1907

Inaug.-diss.--Bern.

Bessel functions.

Microwave Bessel-Beam Propagation through Spatially Inhomogeneous Media

Grecco, Ryan Francis

01 January 2017

Long range wireless power transmission (WPT) is a critical technology for the development of remote power systems for air and space vehicles as well as for point-to-point transmission on Earth. This can be achieved using either a laser for transmission in the infrared to optical frequency domain or by using microwaves. The objective of this research is to study the application of microwave power transmission (MPT) through the use of a so-called Bessel-beam whose unique propagation properties include a self-healing ability as well as non-diffractive properties. These two unique properties lead to an increase in the efficiency of microwave power transmission. In this research the propagation of a microwave Bessel-beam through a spatially inhomogeneous medium will be simulated in MATLAB using a plane wave spectrum representation of the electromagnetic beam field. The spatially inhomogeneous medium of interest here is the Earth's atmosphere whose electromagnetic properties (dielectric permittivity and electric conductivity) vary with altitude up through the ionosphere. The purpose of this research is to determine how efficiently a microwave Bessel beam can propagate in point-to-point transmission through the Earth's atmosphere as well as between satellites in Earth orbit.

Bessel

Bessel-Beam

Microwave

Electrical and Electronics

Physics

The Gibbs’ phenomenon for Fourier–Bessel series

Fay, TH, Kloppers, PH

01 January 2003

Summary The paper investigates the Gibbs’ phenomenon at a jump discontinuity for Fourier–Bessel series expansions. The unexpected thing is that the Gibbs’ constant for Fourier–Bessel series appears to be the same as that for Fourier series expansions. In order to compute the coefficients for Fourier–Bessel functionsefficiently, several integral formulasare derived and the Struve functions and their asymptotic expansions discussed, all of which significantly ease the computations. Three numerical examples are investigated. Findings suggest further investigations suitable for undergraduate research projects or small student group investigations.

Fourier–Bessel series

Numericals

Bessel functions an independent study course /

Moehrlin, Raymond M. Young, Robert D.

January 1979

Thesis (D.A.)--Illinois State University, 1979. / Title from title page screen, viewed Feb. 4, 2005. Dissertation Committee: Robert D. Young (chair), John A. Dossey, Larry Eggan, Kenneth Retzer, Robert K. Ritt. Includes bibliographical references (leaves 172-173) and abstract. Also available in print.

Bessel functions. Mathematics

On the summability of Fourier-Bessel and Dini expansions

Hosford, Hemphill Moffett,

January 1929

Abstract of Thesis (Ph. D.)--University of Illinois, 1926. / Vita.

Fourier series. Bessel functions.

Generalized incomplete modified Bessel distributions with applications to reliability

Soms, Andrew P.

January 1972

Thesis (Ph. D.)--University of Wisconsin--Madison, 1972. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Eigenschaften und Integraldarstellungen der Bessel'schen Funktion U(x) und ihre Beziehungen zu den Bessel'schen Funktionen nach Nielsen

Liekefett, Heinrich.

January 1915

Thesis--Universität Berlin.

Bessel functions. Integrals.

Studien über die Kugel- und Cylinderfunctionen ...

Olbricht, Richard,

January 1887

Inaug.-diss.--Leipzig. / Lebenslauf.

Spherical harmonics. Bessel functions.

Studien über die Kugel- und Cylinderfunctionen

Olbricht, Richard,

January 1887

Published also as inaugural dissertation, Leipzig, 1887. / "Eingegangen bei der Akademie am 2. Juni 1886." Bibliographical foot-notes.

Bessel functions. Spherical harmonics.

Analysis of arbitrarily profiled cylindrical dielectric waveguides using vectored magnetic orthogonal bases

Liu, Han-qiang

06 July 2005

The dielectric waveguide component has become a mature industry in these days in making it and understanding how it works. There are many theoretical and numerical methods to solve these waveguide modes. For example, the rigorous vectorial coupled transverse mode integral equation formulation (VCTMIE), finite-difference frequency-domain method (FDFD), vectorial beam propagation method (VBPM) and modal expansion method with simple bases (MEMSB)¡Ketc. With the exception of the MEMSB method and the alike, all these methods work very hard to handle interface boundaries and many require many terms meet the convergence requirements. In this thesis, we propose a rigorous modal expansion method based on a set of orthogonal transverse magnetic bases to analyze arbitrarily profiled 2-D cylindrical dielectric waveguides. First, we expand the mode field solution of a general multi-layered waveguide by linear combination of 1D homogeneous solutions. Magnetic and components are chosen for its continuity property across the material interface. The choice of Magnetic field over electric field also reduces the number of terms and minimizes the Gibb¡¦s phenomenon. Our new vector bases eliminate the numerical difficulty of working with the singular term of the cylindrical differential operators. When compared with the results using simple bases, we further reduce one quarter of terms without loosing any accuracy. Although the process of deriving the formulation of this vector cylindrical basis expansion technique is complex because Bessel functions and their derivatives are involved, the resulting matrix eigenvalue-eigenvector equation is much simpler than that of the simple bases and the new the result is also more accurate. We also extended the analysis to study the 2-D cylindrical dielectric waveguide problem.

Bessel function

photonic crystal

orthogonal