Conductor Losses in Metallic Monopole Antennas: A MoM-Based Analysis from 1 kHz to 200 GHz

H. L. Zhou; J. F. Li

doi:10.1109/UCMMT67044.2025.11286496

Conductor Losses in Metallic Monopole Antennas: A MoM-Based Analysis from 1 kHz to 200 GHz

H. L. Zhou
, J. F. Li^*

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

Abstract

In metallic-only antennas (i.e., those free of dielectric materials), the conductor properties and geometric designparticularly the cross-sectional and axial configurationscritically influence the antenna's radiation efficiency and realized gain in practical applications. These factors are fundamentally tied to the frequency-dependent skin effect, which governs current distribution and conductive losses. In this work, we numerically investigate these effects using MATLAB-based method-of-moments (MoM) simulations, analyzing vertical quarter-wavelength monopole antennas with finite conductivity (copper) and non-zero cross-sectional dimensions (square-rod geometry), as opposed to idealized perfect electric conductor (PEC) approximations. Our study critically evaluates various monopole designs across a broad frequency range (1 kHz to 200 GHz), assessing their performance in terms of metallic losses.

Original language	English
Journal	UK, Europe, China Millimetre Waves and THZ Technology Workshop, UCMMT
Issue number	2025
DOIs	https://doi.org/10.1109/UCMMT67044.2025.11286496
Publication status	Published - 2025
Externally published	Yes
Event	18th IEEE United Conference on Millimeter Waves and Terahertz Technologies, UCMMT 2025 - Nanjing, China Duration: 25 Aug 2025 → 28 Aug 2025

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10.1109/UCMMT67044.2025.11286496

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title = "Conductor Losses in Metallic Monopole Antennas: A MoM-Based Analysis from 1 kHz to 200 GHz",

abstract = "In metallic-only antennas (i.e., those free of dielectric materials), the conductor properties and geometric designparticularly the cross-sectional and axial configurationscritically influence the antenna's radiation efficiency and realized gain in practical applications. These factors are fundamentally tied to the frequency-dependent skin effect, which governs current distribution and conductive losses. In this work, we numerically investigate these effects using MATLAB-based method-of-moments (MoM) simulations, analyzing vertical quarter-wavelength monopole antennas with finite conductivity (copper) and non-zero cross-sectional dimensions (square-rod geometry), as opposed to idealized perfect electric conductor (PEC) approximations. Our study critically evaluates various monopole designs across a broad frequency range (1 kHz to 200 GHz), assessing their performance in terms of metallic losses.",

author = "Zhou, \{H. L.\} and Li, \{J. F.\}",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 18th IEEE United Conference on Millimeter Waves and Terahertz Technologies, UCMMT 2025 ; Conference date: 25-08-2025 Through 28-08-2025",

year = "2025",

doi = "10.1109/UCMMT67044.2025.11286496",

language = "English",

journal = "UK, Europe, China Millimetre Waves and THZ Technology Workshop, UCMMT",

issn = "2639-4537",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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TY - JOUR

T1 - Conductor Losses in Metallic Monopole Antennas

T2 - 18th IEEE United Conference on Millimeter Waves and Terahertz Technologies, UCMMT 2025

AU - Zhou, H. L.

AU - Li, J. F.

PY - 2025

Y1 - 2025

N2 - In metallic-only antennas (i.e., those free of dielectric materials), the conductor properties and geometric designparticularly the cross-sectional and axial configurationscritically influence the antenna's radiation efficiency and realized gain in practical applications. These factors are fundamentally tied to the frequency-dependent skin effect, which governs current distribution and conductive losses. In this work, we numerically investigate these effects using MATLAB-based method-of-moments (MoM) simulations, analyzing vertical quarter-wavelength monopole antennas with finite conductivity (copper) and non-zero cross-sectional dimensions (square-rod geometry), as opposed to idealized perfect electric conductor (PEC) approximations. Our study critically evaluates various monopole designs across a broad frequency range (1 kHz to 200 GHz), assessing their performance in terms of metallic losses.

AB - In metallic-only antennas (i.e., those free of dielectric materials), the conductor properties and geometric designparticularly the cross-sectional and axial configurationscritically influence the antenna's radiation efficiency and realized gain in practical applications. These factors are fundamentally tied to the frequency-dependent skin effect, which governs current distribution and conductive losses. In this work, we numerically investigate these effects using MATLAB-based method-of-moments (MoM) simulations, analyzing vertical quarter-wavelength monopole antennas with finite conductivity (copper) and non-zero cross-sectional dimensions (square-rod geometry), as opposed to idealized perfect electric conductor (PEC) approximations. Our study critically evaluates various monopole designs across a broad frequency range (1 kHz to 200 GHz), assessing their performance in terms of metallic losses.

UR - https://www.scopus.com/pages/publications/105033157343

U2 - 10.1109/UCMMT67044.2025.11286496

DO - 10.1109/UCMMT67044.2025.11286496

M3 - Conference article

AN - SCOPUS:105033157343

SN - 2639-4537

JO - UK, Europe, China Millimetre Waves and THZ Technology Workshop, UCMMT

JF - UK, Europe, China Millimetre Waves and THZ Technology Workshop, UCMMT

IS - 2025

Y2 - 25 August 2025 through 28 August 2025

ER -

Conductor Losses in Metallic Monopole Antennas: A MoM-Based Analysis from 1 kHz to 200 GHz

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