TY - JOUR
T1 - Beam Scattering by Nonuniform Leaky Wave Structures
AU - Saad, Abraham
AU - Bertoni, Henry L.
AU - Tamir, Theodor
PY - 1974/11
Y1 - 1974/11
N2 - A method is presented for obtaining the scattered field due to a beam incident on a layered structure or on a dielectric grating whose properties vary slowly along a longitudinal direction. The scattered field is expressed in terms of Green's function whose form is particularly simple for large - class of practical problems involving laser beams incident on structures capable of guiding leaky waves. The incident beam may then strongly couple to the leaky wave, thus producing a scattered field that contains a specularly reflected component and a diffracted component of the leaky-wave type. The presence of the latter component may cause the resulting scattered field to be considerably different from the field of the incident beam. A judicious choice of the leaky-wave structure can be used to produce a scattered field that exhibits any of a wide range of distributions. The method developed herein is illustrafed by means of structures whose leakage properties vary linearly. The results can be utilized either for efficiently coupling a beam into a surface wave, or for spilitting the incident beam into two separate but closely similar outgoing beams, both applications being discussed in detail.
AB - A method is presented for obtaining the scattered field due to a beam incident on a layered structure or on a dielectric grating whose properties vary slowly along a longitudinal direction. The scattered field is expressed in terms of Green's function whose form is particularly simple for large - class of practical problems involving laser beams incident on structures capable of guiding leaky waves. The incident beam may then strongly couple to the leaky wave, thus producing a scattered field that contains a specularly reflected component and a diffracted component of the leaky-wave type. The presence of the latter component may cause the resulting scattered field to be considerably different from the field of the incident beam. A judicious choice of the leaky-wave structure can be used to produce a scattered field that exhibits any of a wide range of distributions. The method developed herein is illustrafed by means of structures whose leakage properties vary linearly. The results can be utilized either for efficiently coupling a beam into a surface wave, or for spilitting the incident beam into two separate but closely similar outgoing beams, both applications being discussed in detail.
UR - http://www.scopus.com/inward/record.url?scp=0016129122&partnerID=8YFLogxK
U2 - 10.1109/PROC.1974.9662
DO - 10.1109/PROC.1974.9662
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AN - SCOPUS:0016129122
SN - 0018-9219
VL - 62
SP - 1552
EP - 1561
JO - Proceedings of the IEEE
JF - Proceedings of the IEEE
IS - 11
ER -