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1. Verfasser: Li, Jiawang
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2505.09594
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author Li, Jiawang
author_facet Li, Jiawang
contents Near-field focusing (NFF) forms the basis for several applications of large intelligent surface (LIS) in sub-10 GHz bands, including wireless communications, wireless power transfer, positioning, and sensing. In this two-part paper, Part I analyzed the properties of phase conjugation NFF for vertically polarized antennas, in a circular array configuration. In Part II of this article, we continue to study phase conjugation NFF for circular arrays, but for horizontally polarized antennas. We investigate the focusing characteristics of a circular array in two distinct configurations. The numerical results show that the first configuration where all the antenna elements (including the user antenna) are aligned offers significant better performance in terms of peak gain, 3 dB focal width and sidelobe level, relative to the second configuration where the broadside of the elements faces the array center. This result points to the beneficial use of orthogonally oriented horizontally polarized antenna at the user to allow for flexible polarization alignment with the fixed array orientation. In addition, the vertical polarized circular array of Part I may be merged with the first configuration of Part II to provide optimal NFF to a randomly oriented user equipment with a polarization reconfigurable tripole antenna.
format Preprint
id arxiv_https___arxiv_org_abs_2505_09594
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On Properties of Phase-Conjugation Focusing for Large Intelligent Surface Applications -- Part II: Horizontal Polarization
Li, Jiawang
Signal Processing
Near-field focusing (NFF) forms the basis for several applications of large intelligent surface (LIS) in sub-10 GHz bands, including wireless communications, wireless power transfer, positioning, and sensing. In this two-part paper, Part I analyzed the properties of phase conjugation NFF for vertically polarized antennas, in a circular array configuration. In Part II of this article, we continue to study phase conjugation NFF for circular arrays, but for horizontally polarized antennas. We investigate the focusing characteristics of a circular array in two distinct configurations. The numerical results show that the first configuration where all the antenna elements (including the user antenna) are aligned offers significant better performance in terms of peak gain, 3 dB focal width and sidelobe level, relative to the second configuration where the broadside of the elements faces the array center. This result points to the beneficial use of orthogonally oriented horizontally polarized antenna at the user to allow for flexible polarization alignment with the fixed array orientation. In addition, the vertical polarized circular array of Part I may be merged with the first configuration of Part II to provide optimal NFF to a randomly oriented user equipment with a polarization reconfigurable tripole antenna.
title On Properties of Phase-Conjugation Focusing for Large Intelligent Surface Applications -- Part II: Horizontal Polarization
topic Signal Processing
url https://arxiv.org/abs/2505.09594