Comparative analysis of edge- and broadside-coupled split ring resonators for metamaterial design - Theory and experiments

Marqués, R.; Mesa, Francisco; Martel, J.; Medina, F.

doi:10.1109/tap.2003.817562

Cited by 781 publications

(526 citation statements)

References 22 publications

(55 reference statements)

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“…Split-ring resonators were used as one of the particles for metamaterial construction [13], and have been applied for microstrip band-pass filters to reduce circuit dimensions relying on the fact that these resonators can be designed with dimensions much smaller than signal wavelength at their resonant frequency. However, an interesting character has not been exploited until it was presented in [10] recently.…”

Section: Introductionmentioning

confidence: 99%

Design of Cross-Coupled Dual-Band Filter With Equal-Length Split-Ring Resonators

Fan¹,

Liang²,

Dai³

2007

PIER

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Abstract-A compact dual-band bandpass filter using equal-length split-ring resonators (SRRs) is proposed in this paper. The tworesonance frequency response of equal-length split-ring resonator is described in detail. A cross-coupled dual-band filter with four equallength split-ring resonators is designed. Several finite out-of-band attenuation poles are realized to improve the selectivity of the proposed filter. The measurement of the filter is in good agreement with the simulation.

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Section: Introductionmentioning

confidence: 99%

Design of Cross-Coupled Dual-Band Filter With Equal-Length Split-Ring Resonators

Fan¹,

Liang²,

Dai³

2007

PIER

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“…The rings can be either square or circular in shape. Square SRRs are preferred to enhance magnetic coupling [12,15,24]. Thus by etching SRRs on both sides of a thin dielectric slab, the distributed capacitance between the rings can be significantly enhanced owing to the broadside coupling [11] which results in a lower resonant frequency compared to the edge-coupled SRRs.…”

Section: Conventional Broadside-coupled Resonatorsmentioning

confidence: 99%

“…The main contribution of this paper is to make use of broadside coupled resonators [12] in multilayer technology to achieve miniaturization to a greater extent, without the use of ground planes with apertures or vias. The resonator on one layer is 180 • inverted with respect to the resonator in another layer and achieve coupling without any apertures in the ground plane.…”

Section: Introductionmentioning

confidence: 99%

“…Sub-wavelength structures such as open-loop resonators, splitring resonators (SRRs), miniaturized hair-pin resonators and other microstrip structures have been successfully used to design compact filters at microwave frequencies [5,[13][14][15][16][17][18][19][20][21][22][23], since these resonators can be designed with dimensions much smaller than the signal wavelength at their resonant frequency. Broadside coupled split-ring resonators with cross coupling are chosen to serve the purpose of implementing the multilayer filter compared to the conventional splitring resonators [12] to eliminate the cross-polarization effects [24] and to realize miniaturized structures. In order to improve the selectivity of the bandpass filter, cross-coupling is introduced among the resonators to achieve elliptic function response with a pair of attenuation pole at finite frequencies, thereby improving selectivity [25].…”

Section: Introductionmentioning

confidence: 99%

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Compact Two-Layer Microstrip Bandpass Filters Using Broadside-Coupled Resonators

Vegesna¹,

Saed²

2012

PIER B

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Abstract-This paper presents a design methodology for realizing broadside-coupled microstrip bandpass filters on multilayer substrates to reduce the size of the filter. The new filter configuration consists of broadside coupled split-ring resonators on two layers backed by a ground plane. With the proposed new method, miniaturization to a greater extent can be achieved compared to the conventional method of realizing microstrip multilayer filters. In addition, coupling apertures in the ground plane used to achieve coupling among the resonators in conventional multilayer structures are eliminated. The proposed design is more flexible compared to traditional multilayer filters. Layers can be easily added to increase the filter order. To demonstrate the method, a miniaturized two-layered bandpass filter centered at 728 MHz with low insertion loss is implemented and investigated. Miniaturization of more than 25% is achieved compared to the conventional broadside coupled structure and more than 40% miniaturization compared to the edge coupled structure. The new microstrip filter discussed in this paper can be realized using simple fabrication techniques.

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“…We intend to introduce a class of materials called double zero (DZR) metamaterials [1][2][3][4][5][6][7][8][9], of which the permittivity and permeability are purely imaginary [namely Re(ε r ) = 0 & Re(µ r ) = 0]. Similarly, we may consider epsilon zero (EZR) metamaterials, of which the permittivity is purely imaginary [namely Re(ε r ) = 0 & Re(µ r ) = 0] and mu zero (MZR) metamaterials, of which the permeability is purely imaginary [namely Re(ε r ) = 0 & Re(µ r ) = 0].…”

Section: Introductionmentioning

confidence: 99%

Application of Double Zero Metamaterials as Radar Absorbing Materials for the Reduction of Radar Cross Section

Oraizi¹,

Abdolali²,

Vaseghi³

2010

PIER

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Abstract-We introduce and investigate the applications of double zero (DZR) metamaterials (having the real parts of permittivity and permeability equal to zero) as radar absorbing materials (RAMs). We consider a perfectly electric conductor (PEC) plate covered by several layers of DZR metamaterial coatings under an oblique plane wave incidence of arbitrary polarization. Several analytical formulas are derived for the realization of zero reflection from such structures. The angle of reflection in the DZR metamaterials becomes complex, which leads to the dissociation of the constant amplitude and equiphase planes. Then several examples of the applications of DZR metamaterials (in nondispersive and dispersive conditions) as RAMs and zero reflection coatings are provided. The characteristics and parameters of the DZR metamaterial media are determined in each case. The method of least squares is used to optimize the DZR coatings for the minimization of reflected power, which uses the combination of genetic algorithm and conjugate gradient method (GA-CG) to benefit from their advantages and avert their short comings.

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Comparative analysis of edge- and broadside-coupled split ring resonators for metamaterial design - Theory and experiments

Abstract: and F. Martin, Novel small resonant electromagnetic particles for metamaterial and filter design, Int Conf Electromagn Adv Applic (ICEAA), Torino, Italy, 2003. 13. M. Shamonin, E. Shamonina, V. Kalinin, and L. Solymar

Cited by 781 publications

References 22 publications

Design of Cross-Coupled Dual-Band Filter With Equal-Length Split-Ring Resonators

Design of Cross-Coupled Dual-Band Filter With Equal-Length Split-Ring Resonators

Compact Two-Layer Microstrip Bandpass Filters Using Broadside-Coupled Resonators

Application of Double Zero Metamaterials as Radar Absorbing Materials for the Reduction of Radar Cross Section

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