In this work, the behavior of a Complementary Split Ring Resonator (CSRR) operating within the quasi-static resonance regime and embedded in a composite stratified Substrate Integrated Waveguide (SIW) with two different dielectric layers is analyzed. In these conditions, the propagating modes within the SIW combined with the imposed non-symmetrical structure lead to the excitation of the CSRR elements inside the SIW at difference with conventional excitation. Several cases of CSRR loaded SIW are proposed, and their electromagnetic field components as well as their frequency response are analyzed, providing insight into the CSRR resonance excitation. A test prototype has been designed, fabricated, and measured, showing a good agreement with simulation results and providing a new alternative for the implementation of compact frequency selective devices compatible with planar technology and without undesired radiation loss.

1.
R. E.
Collin
,
Field Theory of Guided Waves
(
McGraw-Hill
,
New York, NY
,
1960
).
3.
J. D.
Joannopoulos
,
R. D.
Meade
, and
J. N.
Winn
,
Photonic Crystals: Molding the Flow of Light
(
Princeton University Press
,
1995
).
4.
S. A.
Maier
,
Plasmonics: Fundamentals and Applications
(
Springer
,
New York
,
2007
).
5.
R.
Marqués
,
F.
Martín
, and
M.
Sorolla
,
Metamaterials with Negative Parameters: Theory, Design and Microwave Applications
(
John Wiley & Sons
,
2008
).
6.
N.
Engheta
and
R. W.
Ziolkowski
,
Metamaterials: Physics and Engineering Explorations
(
John Wiley & Sons
,
Hoboken, New Jersey
,
2006
).
7.
C.
Caloz
and
T.
Itoh
,
Electromagnetic Metamaterials: Transmission Line Theory and Microwave Applications
(
John Wiley & Sons
,
2005
).
8.
D.
Deslandes
and
K.
Wu
,
IEEE Trans. Microwave Theory Tech.
51
,
593
(
2003
).
9.
X.-P.
Chen
,
K.
Wu
, and
Z.-L.
Li
,
IEEE Trans. Microwave Theory Tech.
55
,
2569
(
2007
).
10.
J. B.
Pendry
,
A. J.
Holden
,
D. J.
Robbins
, and
W. J.
Stewart
,
IEEE Trans. Microwave Theory Tech.
47
,
2075
(
1999
).
11.
F.
Falcone
,
T.
Lopetegi
, and
J.
Baena
,
IEEE Microwave Wireless Compon. Lett.
14
,
280
(
2004
).
12.
J. D.
Baena
,
J.
Bonache
,
F.
Martin
,
R. M.
Sillero
,
F.
Falcone
,
T.
Lopetegi
,
M. A. G.
Laso
,
J.
Garcia-Garcia
,
I.
Gil
,
M. F.
Portillo
, and
M.
Sorolla
,
IEEE Trans. Microwave Theory Tech.
53
,
1451
(
2005
).
13.
M.
Gil
,
J.
Bonache
, and
F.
Martin
, in
IEEE MTT-S International Microwave Symposium Digest
(
2008
), p.
323
.
14.
K.
Dong
,
J.
Mo
,
Y.
He
, and
Z.
Ma
,
Microw. Opt. Technol. Lett.
58
,
2406
(
2016
).
15.
K.
Wang
,
H.
Tang
,
R.
Wu
,
C.
Yu
,
J.
Zhang
, and
X.
Wang
,
Microwave Opt. Technol. Lett.
58
,
2704
(
2016
).
16.
D. E.
Senior
,
X.
Cheng
,
M.
Machado
, and
Y.-K.
Yoon
, in
IEEE Antennas and Propagation Society International Symposium
(
2010
), p.
1
.
17.
W.
Park
and
S.
Lim
, in
41st European Microwave Conference
(
2011
), pp.
740
743
.
18.
L.-S. W.
Qiao-Li Zhang
,
W.-Y.
Yin
, and
S.
He
, in
2010 Asia-Pacific Microwave Conference
(
2010
), Vol. 20, p.
1875
.
19.
Y. D.
Dong
,
T.
Yang
, and
T.
Itoh
,
IEEE Trans. Microwave Theory Tech.
57
,
2211
(
2009
).
20.
W.
Che
,
K.
Deng
,
D.
Wang
, and
Y. L.
Chow
,
IET Microwave Antennas Propag.
626 SP
,
35
(
2008
).
You do not currently have access to this content.