A new proposal to convertnear-field into far-field for parabolic reflectors

J. Sosa Pedroza; M. Enciso Aguilar; S. Peña Ruiz; A. Rodríguez Sánchez; E. Garduño Nolasco

doi:10.1002/mop.29862

A new proposal to convertnear-field into far-field for parabolic reflectors

J. Sosa Pedroza, M. Enciso Aguilar, S. Peña Ruiz, A. Rodríguez Sánchez, E. Garduño Nolasco

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

A modeling of a 1.5-m diameter parabolic reflector using the discrete Pocklington equation working at a frequency of 2.45 GHz has been presented; the proposal allows to obtain far-field radiation pattern from the reflected field close to the surface plate which has been first modeled in CST MWS and then it was converted into a current vector using the discrete Pocklington equation. Finally, the far-field pattern using antennas array theory was obtained. To validate the results, they compared them with the measurements of a real parabolic reflector.

Original language	English
Pages (from-to)	1595-1599
Number of pages	5
Journal	Microwave and Optical Technology Letters
Volume	58
Issue number	7
DOIs	https://doi.org/10.1002/mop.29862
State	Published - 1 Jul 2016

Keywords

Pocklington equation
current distribution
far-field
near-field
parabolic reflector antennas

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10.1002/mop.29862

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title = "A new proposal to convertnear-field into far-field for parabolic reflectors",

abstract = "A modeling of a 1.5-m diameter parabolic reflector using the discrete Pocklington equation working at a frequency of 2.45 GHz has been presented; the proposal allows to obtain far-field radiation pattern from the reflected field close to the surface plate which has been first modeled in CST MWS and then it was converted into a current vector using the discrete Pocklington equation. Finally, the far-field pattern using antennas array theory was obtained. To validate the results, they compared them with the measurements of a real parabolic reflector.",

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AU - Sosa Pedroza, J.

AU - Enciso Aguilar, M.

AU - Peña Ruiz, S.

AU - Rodríguez Sánchez, A.

AU - Garduño Nolasco, E.

PY - 2016/7/1

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N2 - A modeling of a 1.5-m diameter parabolic reflector using the discrete Pocklington equation working at a frequency of 2.45 GHz has been presented; the proposal allows to obtain far-field radiation pattern from the reflected field close to the surface plate which has been first modeled in CST MWS and then it was converted into a current vector using the discrete Pocklington equation. Finally, the far-field pattern using antennas array theory was obtained. To validate the results, they compared them with the measurements of a real parabolic reflector.

AB - A modeling of a 1.5-m diameter parabolic reflector using the discrete Pocklington equation working at a frequency of 2.45 GHz has been presented; the proposal allows to obtain far-field radiation pattern from the reflected field close to the surface plate which has been first modeled in CST MWS and then it was converted into a current vector using the discrete Pocklington equation. Finally, the far-field pattern using antennas array theory was obtained. To validate the results, they compared them with the measurements of a real parabolic reflector.

KW - Pocklington equation

KW - current distribution

KW - far-field

KW - near-field

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JO - Microwave and Optical Technology Letters

JF - Microwave and Optical Technology Letters

IS - 7

ER -

A new proposal to convertnear-field into far-field for parabolic reflectors

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Keywords

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