Energy Stored by Radiating Systems

Kurt Schab; Lukas Jelinek; Miloslav Capek; Casimir Ehrenborg; Doruk Tayli; Guy A. E. Vandenbosch; Mats Gustafsson

Energy Stored by Radiating Systems

Kurt Schab, Lukas Jelinek, Miloslav Capek, Casimir Ehrenborg, Doruk Tayli, Guy A. E. Vandenbosch, Mats Gustafsson

Electromagnetic Theory

Research output: Book/Report › Report › Research

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Abstract

Though commonly used to calculate Q-factor and fractional bandwidth, the energy stored by radiating systems (antennas) is a subtle and challenging concept that has perplexed researchers for over half a century. Here, the obstacles in defining and calculating stored energy in general electromagnetic systems are presented from first principles as well as using demonstrative examples from electrostatics, circuits, and radiating systems. Along the way, the concept of unobservable energy is introduced to formalize such challenges. Existing methods of defining stored energy in radiating systems are then reviewed in a framework based on technical commonalities rather than chronological order. Equivalences between some methods under common assumptions are highlighted, along with the strengths, weaknesses, and unique applications of certain techniques. Numerical examples are provided to compare the relative margin between methods on several radiating structures.

Original language	English
Publisher	Electromagnetic Theory Department of Electrical and Information Technology Lund University Sweden
Number of pages	32
Volume	7251
Publication status	Published - 2017

Publication series

Name	Technical Report LUTEDX/(TEAT-7251)/1-32/(2017)
Volume	7251

Subject classification (UKÄ)

Other Electrical Engineering, Electronic Engineering, Information Engineering

1 Article

Energy Stored by Radiating Systems
Schab, K., Jelinek, L., Capek, M., Ehrenborg, C., Tayli, D., Vandenbosch, G. A. E. & Gustafsson, M., 2018, In: IEEE Access. 6, p. 10553-10568
Research output: Contribution to journal › Article › peer-review

Open Access

1 Finished

EIT_CACO-EMD Complex analysis and convex optimization for EM design
Ehrenborg, C. (Researcher), Tayli, D. (Researcher), Cismasu, M. (Researcher), Nordebo, S. (Researcher), Sjöberg, D. (Researcher) & Gustafsson, M. (Researcher)
2014/01/01 → 2019/12/31
Project: Research

Cite this

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title = "Energy Stored by Radiating Systems",

abstract = "Though commonly used to calculate Q-factor and fractional bandwidth, the energy stored by radiating systems (antennas) is a subtle and challenging concept that has perplexed researchers for over half a century. Here, the obstacles in defining and calculating stored energy in general electromagnetic systems are presented from first principles as well as using demonstrative examples from electrostatics, circuits, and radiating systems. Along the way, the concept of unobservable energy is introduced to formalize such challenges. Existing methods of defining stored energy in radiating systems are then reviewed in a framework based on technical commonalities rather than chronological order. Equivalences between some methods under common assumptions are highlighted, along with the strengths, weaknesses, and unique applications of certain techniques. Numerical examples are provided to compare the relative margin between methods on several radiating structures.",

author = "Kurt Schab and Lukas Jelinek and Miloslav Capek and Casimir Ehrenborg and Doruk Tayli and Vandenbosch, {Guy A. E.} and Mats Gustafsson",

year = "2017",

language = "English",

volume = "7251",

series = "Technical Report LUTEDX/(TEAT-7251)/1-32/(2017)",

publisher = "Electromagnetic Theory Department of Electrical and Information Technology Lund University Sweden",

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T1 - Energy Stored by Radiating Systems

AU - Schab, Kurt

AU - Jelinek, Lukas

AU - Capek, Miloslav

AU - Ehrenborg, Casimir

AU - Tayli, Doruk

AU - Vandenbosch, Guy A. E.

AU - Gustafsson, Mats

PY - 2017

Y1 - 2017

N2 - Though commonly used to calculate Q-factor and fractional bandwidth, the energy stored by radiating systems (antennas) is a subtle and challenging concept that has perplexed researchers for over half a century. Here, the obstacles in defining and calculating stored energy in general electromagnetic systems are presented from first principles as well as using demonstrative examples from electrostatics, circuits, and radiating systems. Along the way, the concept of unobservable energy is introduced to formalize such challenges. Existing methods of defining stored energy in radiating systems are then reviewed in a framework based on technical commonalities rather than chronological order. Equivalences between some methods under common assumptions are highlighted, along with the strengths, weaknesses, and unique applications of certain techniques. Numerical examples are provided to compare the relative margin between methods on several radiating structures.

AB - Though commonly used to calculate Q-factor and fractional bandwidth, the energy stored by radiating systems (antennas) is a subtle and challenging concept that has perplexed researchers for over half a century. Here, the obstacles in defining and calculating stored energy in general electromagnetic systems are presented from first principles as well as using demonstrative examples from electrostatics, circuits, and radiating systems. Along the way, the concept of unobservable energy is introduced to formalize such challenges. Existing methods of defining stored energy in radiating systems are then reviewed in a framework based on technical commonalities rather than chronological order. Equivalences between some methods under common assumptions are highlighted, along with the strengths, weaknesses, and unique applications of certain techniques. Numerical examples are provided to compare the relative margin between methods on several radiating structures.

M3 - Report

VL - 7251

T3 - Technical Report LUTEDX/(TEAT-7251)/1-32/(2017)

BT - Energy Stored by Radiating Systems

PB - Electromagnetic Theory Department of Electrical and Information Technology Lund University Sweden

ER -

Energy Stored by Radiating Systems

Abstract

Publication series

Subject classification (UKÄ)

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Research output

Energy Stored by Radiating Systems

Projects

EIT_CACO-EMD Complex analysis and convex optimization for EM design

Cite this