Title :
On a new cylindrical harmonic representation for spherical waves
Author :
Werner, Douglas H. ; Colegrove, Thomas W.
Author_Institution :
Appl. Res. Lab., Pennsylvania State Univ., University Park, PA, USA
fDate :
1/1/1999 12:00:00 AM
Abstract :
An exact series representation is presented for integrals whose integrands are products of cosine and spherical wave functions, where the argument of the cosine term can be any integral multiple n of the azimuth angle φ. This series expansion is shown to have the following form: I(n)=e-jkR0/R0 δno-jk Σm=1∞ C(m,n)(k 2ρρ0)/m! hm(2)(kR0)/(kR0)m . It is demonstrated that in the special cases n=0 and n=1, this series representation corresponds to existing expressions for the cylindrical wire kernel and the uniform current circular loop vector potential, respectively. A new series representation for spherical waves in terms of cylindrical harmonics is then derived using this general series representation. Finally, a closed-form far-field approximation is developed and is shown to reduce to existing expressions for the cylindrical wire kernel and the uniform current loop vector potential as special cases
Keywords :
approximation theory; dipole antennas; electric current; electromagnetic fields; electromagnetic waves; harmonic analysis; integral equations; loop antennas; series (mathematics); signal representation; wave functions; wire antennas; argument; azimuth angle; circular loop antenna; closed-form far-field approximation; cosine wave functions; cylindrical harmonic representation; cylindrical harmonics; cylindrical wire kernel; exact series representation; integrals; integrands; products; series expansion; spherical waves; uniform current circular loop vector potential; Azimuth; Dipole antennas; Kernel; Wave functions; Wire;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
