Ultra-Short Horn Antennas via Digital Choke and Groove Aperture Topologies

Galestan Mackertich-Sengerdy; Sawyer Campbell; Douglas Henry Werner

doi:10.1109/LAWP.2025.3530859

Ultra-Short Horn Antennas via Digital Choke and Groove Aperture Topologies

Galestan Mackertich-Sengerdy
, Sawyer Campbell
, Douglas Henry Werner

Electrical Engineering

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

4 Scopus citations

Abstract

The pursuit of compact antennas has historically sacrificed directivity. Traditionally, solutions involve adding radiators, complex lenses or enlarging the antenna, which often introduces spurious lobes or increases system height. This study investigates a digital choke and groove aperture technology, employing recessed slots and protruded chokes, to optimize directivity and shape lobes in ultra-short horns. Through analysis and experiments, we assess the antenna's gain, volume efficiency, bandwidth, and lobe suppression. Our findings offer insights into applications and lay the groundwork for further advancements in ultra-low-profile digital aperture topologies for ultra-short horns.

Original language	English (US)
Pages (from-to)	1213-1217
Number of pages	5
Journal	IEEE Antennas and Wireless Propagation Letters
Volume	24
Issue number	5
DOIs	https://doi.org/10.1109/LAWP.2025.3530859
State	Published - 2025

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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10.1109/LAWP.2025.3530859

Cite this

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title = "Ultra-Short Horn Antennas via Digital Choke and Groove Aperture Topologies",

abstract = "The pursuit of compact antennas has historically sacrificed directivity. Traditionally, solutions involve adding radiators, complex lenses or enlarging the antenna, which often introduces spurious lobes or increases system height. This study investigates a digital choke and groove aperture technology, employing recessed slots and protruded chokes, to optimize directivity and shape lobes in ultra-short horns. Through analysis and experiments, we assess the antenna's gain, volume efficiency, bandwidth, and lobe suppression. Our findings offer insights into applications and lay the groundwork for further advancements in ultra-low-profile digital aperture topologies for ultra-short horns.",

author = "Galestan Mackertich-Sengerdy and Sawyer Campbell and Werner, \{Douglas Henry\}",

note = "Publisher Copyright: {\textcopyright} 2002-2011 IEEE.",

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AU - Mackertich-Sengerdy, Galestan

AU - Campbell, Sawyer

AU - Werner, Douglas Henry

PY - 2025

Y1 - 2025

N2 - The pursuit of compact antennas has historically sacrificed directivity. Traditionally, solutions involve adding radiators, complex lenses or enlarging the antenna, which often introduces spurious lobes or increases system height. This study investigates a digital choke and groove aperture technology, employing recessed slots and protruded chokes, to optimize directivity and shape lobes in ultra-short horns. Through analysis and experiments, we assess the antenna's gain, volume efficiency, bandwidth, and lobe suppression. Our findings offer insights into applications and lay the groundwork for further advancements in ultra-low-profile digital aperture topologies for ultra-short horns.

AB - The pursuit of compact antennas has historically sacrificed directivity. Traditionally, solutions involve adding radiators, complex lenses or enlarging the antenna, which often introduces spurious lobes or increases system height. This study investigates a digital choke and groove aperture technology, employing recessed slots and protruded chokes, to optimize directivity and shape lobes in ultra-short horns. Through analysis and experiments, we assess the antenna's gain, volume efficiency, bandwidth, and lobe suppression. Our findings offer insights into applications and lay the groundwork for further advancements in ultra-low-profile digital aperture topologies for ultra-short horns.

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Ultra-Short Horn Antennas via Digital Choke and Groove Aperture Topologies

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All Science Journal Classification (ASJC) codes

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