S. Peña-Ruiz scite author profile

International Journal of Antennas and Propagation

et al. 2012

We present an analysis of mutual coupling effects on radiation pattern and individual coupling in a conformal array of cross rhombic antennas. Analysis is made using both full-wave simulation and numerical approaches implemented in Matlab. The array consists of a truncated hexagonal pyramid, with a cross rhombic antenna in each pyramidal face, including the one on the top, having a 7-antennas-array. Results of radiation pattern and S11 parameters are presented, showing mutual coupling effects among the elements.

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

Pedroza

Enciso-Aguilar

Microw. Opt. Technol. Lett.

et al. 2016

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. © 2016 Wiley Periodicals, Inc. Microwave Opt Technol Lett 58:1595–1599, 2016

A 2.4 GHz Cross Rhombic Antenna for a Cube Satellite Application

Sosa-Pedroza

International Journal of Antennas and Propagation

Martínez-Zúñiga

2014

We present design and construction results of a 2.4 Ghz cross rhombic antenna to be used in a cubesat. Computational design agrees with experimental results after its construction. cross rhombic antenna is a novel planar structure of our own design, presenting circular polarization and medium gain; it is built over a RF60A substrate withεr=6.15, decreasing its size to fit the required dimensions of satellite. A special characteristic of this design is the enhancing of operational bandwidth using a technique we have been studying, related to softening the structures with sharp edges. Results show applicability and success of our technique.

International Journal of Antennas and Propagation

Analysis of Electromagnetic Propagation from MHz to THz with a Memory-Optimised CPML-FDTD Algorithm

Rodríguez-Sánchez

Couder-Castañeda

Hernández-Gómez

et al. 2018

FDTD method opened a fertile research area on the numerical analysis of electromagnetic phenomena under a wide range of media and propagation conditions, providing an extensive analysis of electromagnetic behaviour like propagation, reflection, refraction, and multitrajectory phenomena. In this paper, we present an optimised FDTD-CPML algorithm, focused in saving memory while increasing the performance of the algorithm. We particularly implement FDTD-CPML method at high frequency bands, used in several telecommunications applications as well as in nanoelectromagnetism. We show an analysis of the performance of the algorithm in single and double precision, as well as a stability of the algorithm analysis, from where we conclude that the implemented CPML ABC constitutes a robust choice in terms of precision and accuracy for the high frequencies herein considered. It is important to recall that the CPML ABC parameters provided in this paper are fixed for the tested range of frequencies, that is, from MHz to THz.

Parabolic reflector near-field to far-field transformation using FDTDM and Pocklington equation

Sosa-Pedroza

Martínez-Zúñiga

2017