Perturbation theory to model shielding effectiveness of cavities loaded with electromagnetic dampeners

Salvatore Campione; Isak C. Reines; L. K. Warne; Caleb Grimms; Jeffery T. Williams; Roy K. Gutierrez; Rebecca S. Coats; Lorena I. Basilio

doi:10.1049/el.2019.0656

Perturbation theory to model shielding effectiveness of cavities loaded with electromagnetic dampeners

Salvatore Campione
, Isak C. Reines
, L. K. Warne
, Caleb Grimms
, Jeffery T. Williams
, Roy K. Gutierrez
, Rebecca S. Coats
, Lorena I. Basilio

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

8 Scopus citations

Abstract

It is well-known that a slotted resonant cavity with high-quality factor exhibits interior electromagnetic (EM) fields that may be even larger than the external field. The authors aim to reduce the cavity’s EM fields and quality factor over a frequency band analytically, numerically, and experimentally by introducing microwave absorbing materials in the cavity. A perturbation model approach was developed to estimate the quality factor of loaded cavities, which is validated against full-wave simulations and experiments. Results with 78.7 mils (2 mm) thick ECCOSORB-MCS absorber placed on the inside cavity wall above and below the aperture slot (with only 0.026% cavity volume) result in a reduction of shielding effectiveness >19 dB and reductions in quality factor >91%, providing confirmation of the efficacy of this approach.

Original language	English
Pages (from-to)	644-646
Number of pages	3
Journal	Electronics Letters
Volume	55
Issue number	11
DOIs	https://doi.org/10.1049/el.2019.0656
State	Published - 2019
Externally published	Yes

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10.1049/el.2019.0656

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title = "Perturbation theory to model shielding effectiveness of cavities loaded with electromagnetic dampeners",

abstract = "It is well-known that a slotted resonant cavity with high-quality factor exhibits interior electromagnetic (EM) fields that may be even larger than the external field. The authors aim to reduce the cavity{\textquoteright}s EM fields and quality factor over a frequency band analytically, numerically, and experimentally by introducing microwave absorbing materials in the cavity. A perturbation model approach was developed to estimate the quality factor of loaded cavities, which is validated against full-wave simulations and experiments. Results with 78.7 mils (2 mm) thick ECCOSORB-MCS absorber placed on the inside cavity wall above and below the aperture slot (with only 0.026\% cavity volume) result in a reduction of shielding effectiveness >19 dB and reductions in quality factor >91\%, providing confirmation of the efficacy of this approach.",

author = "Salvatore Campione and Reines, \{Isak C.\} and Warne, \{L. K.\} and Caleb Grimms and Williams, \{Jeffery T.\} and Gutierrez, \{Roy K.\} and Coats, \{Rebecca S.\} and Basilio, \{Lorena I.\}",

note = "Publisher Copyright: {\textcopyright} The Institution of Engineering and Technology 2019.",

year = "2019",

doi = "10.1049/el.2019.0656",

language = "English",

volume = "55",

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journal = "Electronics Letters",

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TY - JOUR

T1 - Perturbation theory to model shielding effectiveness of cavities loaded with electromagnetic dampeners

AU - Campione, Salvatore

AU - Reines, Isak C.

AU - Warne, L. K.

AU - Grimms, Caleb

AU - Williams, Jeffery T.

AU - Gutierrez, Roy K.

AU - Coats, Rebecca S.

AU - Basilio, Lorena I.

PY - 2019

Y1 - 2019

N2 - It is well-known that a slotted resonant cavity with high-quality factor exhibits interior electromagnetic (EM) fields that may be even larger than the external field. The authors aim to reduce the cavity’s EM fields and quality factor over a frequency band analytically, numerically, and experimentally by introducing microwave absorbing materials in the cavity. A perturbation model approach was developed to estimate the quality factor of loaded cavities, which is validated against full-wave simulations and experiments. Results with 78.7 mils (2 mm) thick ECCOSORB-MCS absorber placed on the inside cavity wall above and below the aperture slot (with only 0.026% cavity volume) result in a reduction of shielding effectiveness >19 dB and reductions in quality factor >91%, providing confirmation of the efficacy of this approach.

AB - It is well-known that a slotted resonant cavity with high-quality factor exhibits interior electromagnetic (EM) fields that may be even larger than the external field. The authors aim to reduce the cavity’s EM fields and quality factor over a frequency band analytically, numerically, and experimentally by introducing microwave absorbing materials in the cavity. A perturbation model approach was developed to estimate the quality factor of loaded cavities, which is validated against full-wave simulations and experiments. Results with 78.7 mils (2 mm) thick ECCOSORB-MCS absorber placed on the inside cavity wall above and below the aperture slot (with only 0.026% cavity volume) result in a reduction of shielding effectiveness >19 dB and reductions in quality factor >91%, providing confirmation of the efficacy of this approach.

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U2 - 10.1049/el.2019.0656

DO - 10.1049/el.2019.0656

M3 - Article

AN - SCOPUS:85066736335

SN - 0013-5194

VL - 55

SP - 644

EP - 646

JO - Electronics Letters

JF - Electronics Letters

IS - 11

ER -

Perturbation theory to model shielding effectiveness of cavities loaded with electromagnetic dampeners

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