购买
下载掌阅APP,畅读海量书库
立即打开
畅读海量书库
扫码下载掌阅APP

参考文献

[1] Ben A.Munk.Metamaterials:critique and alternatives.John Wiley&Sons,2009.

[2] Tie Jun Cui,Ruopeng Liu and David R.Smith.Metamaterials:theory,design,and applications.Springer,2009.

[3] Filippo Capolino.Theory and phenomena of Metamaterials.CRC Press Taylor and Fran cis,2009.

[4] V.G.Veselago.The electrodynamics of substances with simultaneously negative values ofεandμ,Sov.Phys.Usp,1968,Vol.10:509-514.

[5] J.B.Pendry,A.J.Holden,W.J.Stewart,et al.Extremely low frequency plasmons in metallic mesostructures,Phys.Rev.Lett,1996,Vol.76:4773-4776.

[6] J.B.Pendry,A.J.Holden,D.J.Robbins,et al.Magnetism from conductors and en hanced nonlinear phenomena,IEEE Trans Microwave Theory and Tech.,1999,Vol.47:2075-2084.

[7] R.A.Shelby,D.R.Smith,S.Schultz.Experimental verification of a negative index of refraction.Science,2001,Vol.292:77-79.

[8] J.Pacheco,Jr.,T.M.Grzegorczyk,B.-I.Wu,Y.Zhang,and J.A.Kong.Power propagation in homogeneous isotropic frequency-dispersive left-handed media.Phys.Rev.Lett.2002,Vol.89:257401.

[9] Andrew A.Houck,Jeffrey B.Brock and Isaac L.Chuang.Experimental observations of a left-handed material that obeys Snell’s law.Phys.Rev.lett.,2003,Vol.90:137401.

[10] C.G.Parazzoli,R.B.Greegor,K.Li,B.E.C.Koltenbah and M.Tanielian.Ex perimental verification and simulation of negative index of refraction using Snell’s law,Phys.Rev.Lett.,2003,Vol.90:107401.

[11]崔万照,马伟,邱乐德,张洪太.电磁超介质及其应用.国防工业出版社,2008.

[12] J.B.Pendry.Negative refraction makes a perfect lens.Phys.Rev.Lett.,2000,Vol.85(18):3966,3969.

[13] N.Engetha.An idea for thin subwavelength cavity resonators using metamaterials with negative permittivity and permeability,IEEE Antennas and Wireless Propagation Let ters,2002,Vol.1(1):10-13.

[14] Y.Li,L.X.Ran and H.S.Chen,et.al.Experimental realization of a one-dimen sional LHM-RHM resonator:IEEE Transactions on Microwave Theory and Techniques,2005,Vol.53(4):1522-1526.

[15] Ilya V.Shadrivov,Andrey A.Sukhorukov,and Yuri S.Kivshar.Guided modes in negative-refractive-index waveguides,Physical Review E,2003,Vol.67:057602,4.

[16] A.Alu and N.Engheta,Guided modes in a waveguide filled with a pair of single-neg ative(SNG),double-negative(DNG)andor double-positive(DPS)layers,IEEE Transactions on Microwave Theory and Techniques,2004,Vol.52-(1):199210.

[17] C.M.Krowne.Physics of propagation in left-handed guided wave structures at micro wave and millimeter-wave frequencies.Physical Review Letters,2004,Vol.92(5):053901,4.

[18] I.V.Shadrivov,R.W.Ziolkowski and A.A.Zharov,et.al.Excitation of guided waves in layered structures with negative refraction.Optics Express,2005,Vol.13(2):481-492.

[19] J.Schelleng,C.Monzon and P.F.Loschialpo,et.al.Characteristics of waves guid ed by a grounded left-handed material slab of finite extent,Physicale Review E,2004,Vol.70:066606,7.

[20] C.M.Krowne.Electromagnetic-field theory and numerically generated results for propagation in left-handed guided-wave single-microstrip structures,IEEE Transac tions on Microwave Theory and Techniques,2003,Vol.51(12):2269-2283.

[21] B.I.Wu,T.M.Grzegorczyk and Y.Zhang,et.al.Guided modes with imaginary transverse wave number in a slab waveguide with negative permittivity and permeabili ty,Journal of Applied Physics,2003,Vol.93(11):9386-9388.

[22] I.V.Shadrivov.Nonlinear guided waves and symmetry breaking in left-handed wav eguides.Photonics and Nanostructrures-Fundamentals and Applications,2004,Vol.2:175-180.

[23] G.Lovat,P.Burghignoli,F.Capolino,D.R.Jackson,and D.R.Wilton.Analysis of directive radiation from a line source in metamaterial slab with low permittivity.IEEE Trans.Antennas Propagat,2006,Vol.54:1017-1030.

[24] P.Burghignoli,G.Lovat,F.Capolino,D.R.Jackson,and D.R.Wilton.Directive leaky-wave radiation from a dipole source in a wire-medium slab,IEEE Trans.Anten nas Propagat.2008,Vol.56:1329-1339.

[25] J.B.Pendry,D.Schurig,D.R.Smith.Controlling electromagnetic fields.Science,2006,Vol.312:1780-1782.

[26] D.Schurig,J.J.Mock and B.J.Justice,et.al.Metamaterial electromagnetic cloak at microwave frequencies.Science,2006,Vol.314:977-980.

[27] U.Leonhardt.Optical conformal mapping.Science,2006,Vol.312:1777-1780.

[28] A.Alu and N.Engheta.Achieving transparency with plasmonic and metamaterial coatings.Physicale Review E,Vol.72:016623,9.

[29] D.Schurig,J.B.Pendry and D.R.Smith.Calculation of material properties and ray tracing in transformation media.Optics Express,2006,Vol.14(21):9794-9804.

[30] S.A.Cummer,B.I.Popa-,D.Schurig,et.al.Fullwave simulations of electromag netic cloaking structures.Physicale Review E,2006,Vol.74:036621-1-036621-5.

[31] H.Y.Chen and C.T.Chen.Tranformation media that rotate electromagnetic fields.Applied Physics Letters,2007,Vol.90:241105,3.

[32] Filippo Capolino.Applications of Metamaterials.CRC Press Taylor and Francis,2009.

[33] G.V.Eletlheriades,A.K.Lyer,P.C.Kremer.Planar negative refractive index media using periodically L-C loaded transmission lines.IEEE Trans.on Microwave The-my and Techniques,2002,Vol.50(12):2702-2712.

[34] C.Caloz,T.Iwai,T.Itoh.Transmission line approach of left-handed(LH)materi als.USNC/URSI National Radio Science Meeting,San Antonio,TX,2002,Vol.1:39.

[35] Oliner,A.A.:A periodic-structure negative-refractive-index medium without resonant elements.USNC/URSI National Radio Science Meeting,San Antonio,TX,2002,Vol.1:41.

[36] Smith,D.R.,Mock,J.J.,Starr,A.F.,Schurig,D.:Gradient index metamateri als.Phys.Rev.E,2005,Vol.71:036609.

[37] The news staff of Science.Breakthrough of the Year.Science,2006,Vol.314:1852.

[38] Y Y.Zhao,C.Argyropoulos,and Y.Hao.Full-wave finite-difference time-domain simulation of electromagnetic cloaking structures.Opt.Express,2008,Vol.16:67176730.

[39] Z.Ruan,M.Yan,C.W.Neff,and M.Qiu.Ideal cylindrical cloak:perfect but sensitive to tiny perturbations.Phys.Rev.Lett.,2007,Vol.99:113903,4.

[40] H.Chen,B-I.Wu,B.Zhang,and J.A.Kong.Electromagnetic wave interactions with a metamaterial cloak.Phys.Rev.Lett.,2007,Vol.99:063903,4.

[41] Y.Luo,H.Chen,J.Zhang,L.Ruan,and J.A.Kong.Design and analytical full wave validation of the invisibility cloaks,concentrators,and field rotators created with a general class of transformations.Phys.Rev.B,2008,Vol.77,125127,8.

[42] H.Chen,Z.Liang,P.Yao,X.Jiang,H.Ma,and C.T.Chan.Extending the bandwidth of electromagnetic cloaks.Phys.Rev.B,2007,Vol.76:241104,4.

[43] P.Yao,Z.Liang,and X.Jiang.Limitation of the electromagnetic cloak with disper sive material.Appl.Phys.Lett.,2008,Vol.92:031111,3.

[44] Z.Liang,P.Yao,X.Sun,and X.Jiang.The physical picture and the essential ele ments of the dynamical process for dispersive cloaking structures.Appl.Phys.Lett.,2008,Vol.92:131118,3.

[45] A.D.Yaghjian,S.Maci,and E.Martini.Characteristic wave velocities in spherical electromagnetic cloaks.New J.Phys.,2009,Vol.11:113011,13.

[46] M.Farhat,S.Guenneau,and S.Enoch.Ultrabroadband elastic cloaking in thin plates.Phys.Rev.Lett.,2009,Vol.103:024301,4.

[47] H.Hashemi,B.Zhang,J.D.Joannopoulos,and S.G.Johnson.Delay-bandwidth and delay-loss limitations for cloaking of large objects.Phys.Rev.Lett.,2010,Vol.104:253903,4.

[48] A.Greenleaf,Y.Kurylev,M.Lassas,and G.Uhlmann.Cloaking a sensor via trans formation optics.Phys.Rev.E,2011,Vol.83:016603,6.

[49] J-W.Dong,H.H.Zheng,Y.Lai,H-Z.Wang,and C.T.Chan.Metamaterial slab as a lens,a cloak,or an intermediate.Phys.Rev.B,2011,Vol.83:115124,8.

[50] D.H.Kwon and D.H.Werner.Two-dimensional eccentric elliptic electromagnetic cloaks.Appl.Phys.Lett.,2008,Vol.92:013505,3.

[51] H.Ma,S.Qu,Z.Xu,J.Zhang,B.Chen,and J.Wang.Material parameter equa tion for elliptical cylindrical cloaks.Phys.Rev.A,2008,Vol.77:013825,4.

[52] K.Yao,C.Li,and F.Li.Electromagnetic invisibility of elliptic cylinder cloaks.Chin.Phys.Lett.,2008,Vol.25:1657-1660.

[53] W.X.Jiang,T.J.Cui,G.X.Wu,X.Q.Lin,Q.Cheng,and J.Y.Chin.Arbi trarily elliptical-cylindrical invisible cloaking.J.Phys.D:Appl.Phys.,Vol.41:085504,5.

[54] W.Yan,M.Yan,Z.Ruan,and Q.Min.Coordinate transformations make perfect invisibility cloaks with arbitrary shape.New J.Phys.,2008,Vol.10:043040,13.

[55] C.Li and F.Li.Two-dimensional electromagnetic cloaks with arbitrary geometries.Opt.Express,2008,Vol.16-:1341413420.

[56] W.X.Jiang,J.Y.Chin,Z.Li,Q.Cheng,R.Liu,and T.J.Cui.Analytical de sign of conformally invisible cloaks for arbitrarily shaped objects.Phys.Rev.E,2008,Vol.77:066607,6.

[57] J.Zhang,Y.Luo,H.Chen,and B-I.Wu.Cloak of arbitrary shape.J.Opt.Soc.Am.B,2008,Vol.25:1776-1779.

[58] H.Ma,S.Qu,Z.Xu,and J.Wang.Approximation approach of designing practical cloaks with arbitrary shapes.Opt.Express,2008,Vol.16:15449-15454.

[59] A.Nicolet,F.Zolla,and S.Guenneau.Electromagnetic analysis of cylindrical cloaks of an arbitrary cross section.Opt.Lett.,2008,Vol.33:1584-1586.

[60] C.Li,K.Yao,and F.Li.Two-dimensional electromagnetic cloaks with non-confor mal inner and outer boundaries.Opt.Express,2008,Vol.16:19366-19374.

[61] K.Yao,C.Li,and F.Li.Two-dimensional dissimilar electromagnetic cloak for irreg ular regions.Appl.Phys.B,2009,Vol.96:355-361.

[62] J.Li and J.B.Pendry.Hiding under the carpet:a new strategy for cloaking.Phys.Rev.Lett.,2008,Vol.101:203901,4.

[63] R.Liu,C.Ji,J.J.Mock,J.Y.Chin,T.J.Cui,and D.R.Smith.Broadband ground-plane cloak.Science,2009,Vol.323:366-369.

[64] R.Schmied,J.C.Halimeh,and M.Wegener.Conformal carpet and grating cloaks.Opt.Express,2010,Vol.18,24361,7.

[65] W.Cai,U.K.Chettiar,A.V.Kildishev,and V.M.Shavlaev.Optical cloaking with metamaterials.Nat.Photon,2007,Vol.1:224-227.

[66] Y.Huang,Y.Feng,T.Jiang.Electromagnetic cloaking by layered structure of hom ogeneous isotropic materials.Opt.Express,2007,Vol.15:11133-11141.

[67] J.Valentine,J.Li,T.Zentgraf,G.Bartal,and X.Zhang.An optical cloak made of dielectrics.Nature materials,2009,Vol.8:568-571.

[68] Xiao Liu,Chao Li,Kan Yao,Xiankun Meng and Fang Li.Invisibility cloaks modeled by anisotropic metamaterials based on inductor-capacitor networks.IEEE Antennas and Wireless Propagation Letters,2009,Vol.8:1154-1157.

[69] Xiao Liu,Chao Li,Kan Yao,Xiankun Meng,Wei Feng,Bingheng Wu and Fang Li.Experimental verification of broadband invisibility using a cloak based on inductor-ca pacitor networks.Applied Physics Letters,2009,Vol.95:191107,3.

[70] T.Ergin,N.Stenger,P.Brenner,J.B.Pendry,and M.Wegener.Three-dimen sional invisibility cloak at optical wavelengths.Science,2010,Vol.328:337-339.

[71] H.Y.Chen,X.D.Luo,H.R.Ma,and C.T.Chan.The anti-cloak.Opt.Ex press,2008,Vol.16,14603-14608.

[72] Baile Zhang and Bae-Ian Wu.Electromagnetic detection of a perfect invisibility cloak.Phys.Rev.Lett.,2009,Vol.103:243901,4.

[73] H.Chen and C.T.Chan.Transformation media that rotate electromagnetic fields.Appl.Phys.Lett.,2007,Vol.90:241105,3.

[74] M.Rahm,D.Schurig,D.A.Robert,S.A.Cummer,D.R.Smith,and J.B.Pendry.Design of electromagnetic cloaks and concentrators using form-invariant coor dinate transformations of Maxwell’s equations.Phot.Nano.-Fund.Appl.,2008,Vol.6:87-95.

[75] D-H.Kwon and D.H.Werner.Polarization splitter and polarization rotator designs based on transformation optics.Opt.Express,2008,Vol.16:18731-18738.

[76] D.Schurig.J.B.Pendry,and D.R.Smith.Transformation-designed optical ele ments.Opt.Express,2007,Vol.15:14772-14782.

[77] Y.Liu,T.Zentgraf,G.Bartal,and X.Zhang.Transformational plasmon optics.Nano Lett.,2010,Vol.10:1991-1997.

[78] T.Zentgraf,Y.Liu,MH Mikkelsen,J.Valentine,X.Zhang.Plasmonic Luneburg and Eaton lenses.Nature Nanotechnology,2011,Vol.6:151-155.

[79] Y.Lai,H.Chen,Z-Q.Zhang,C.T.Chan.Complementary media invisibility cloak that cloaks objects at a distance outside the cloaking shell.Phys.Rev.Lett.,2009,Vol.102:093901.

[80] Y.Lai,J.Ng,H.Chen,D.Han,J.Xiao,Z-Q.Zhang,C.T.Chan.Illusion op tics:The optical transformation of an object into another object.Phys.Rev.Lett.,2009,Vol.102:253902.

[81] H.Chen,C.T.Chan,P.Shen.Transformation optics and metamaterials.Nature Mater.,2010,Vol.9:387-396.

[82] T.Yang,H.Chen,X.Luo,H.Ma.Superscatterer:enhancement of scattering with complementary media.Opt.Express,2006,Vol.16:18545-18550.

[83] H.Chen,C.T.Chan,S.Liu,Z.Lin.A simple route to a tunable electromagnetic gateway.New J.Phys.,2009,Vol.11:083012.

[84] X.Luo,T.Yang,Y.Gu,H.Chen,H.Ma.Conceal an entrance by means of su perscatterer.Appl.Phys.Lett.,2009,Vol.94:223513.

[85] R.Marques,F.Medina,R.Rafii-El-Idrissi.Role of bianisotropy in negative permea bility and left-handed metamaterials.Phys.Rev.B,2002,Vol.65:144440.

[86] R.Marques,F.Medina,R.Rafii-El-Idrissi.Comparative analysis of edge-and broadside-coupled split ring resonators for metamaterial design-theory and experi ments.IEEE Trans.Antennas Progagat.,2003,Vol.51(10):2572-2581.

[87] C.R.Simovski,S.L.He.Frequency range and explicit expressions for negative per-mittivity and permeability for an isotropic medium formed by a lattice of perfectly con ducting omega particles.Phys.Lett.A,2006,Vol.311:254.

[88] M.M.I.Saadoun,N.Engheta.A reciprocal phase shifter using novel pseudochiral or Omega medium.Microwave Opt.Technol.Lett.,1992,Vol.5(4):184-188.

[89] L.Ran,J.Huang Fu,H.Chen,et.al.Experimental study on several left-handed metamaterials.PIER Special Issue on Metamaterial,2005,Vol.51:249-279.

[90] H.Chen,L.Ran and J.Huangfu,et.al.Left-handed material only composed of S shaped resonator.Physical Review E,2004,Vol.70:057605.

[91] J.Huang Fu,L.Ran,H.Chen,et.al.Experimental confirmation of negative refrac tive index of a metamaterial composed of omega-like metallic patterns.Applied physics letters,2004,Vol.84(9):1537-1539.

[92] T.J.Yen,W.J.Padilla,N.Fang,et.al..Terahertz magnetic response from artifi cial materials.Science,2004,Vol.303:1494-1496.

[93] S.F.Linden,C.Enkrich,M.Wegener.Magnetic response of metamaterials at 100 Terahertz.Science,2004,Vol.306:1351-1353.

[94] V.Jason,S.Zhang,T.Zentgraf,et.al..Three-dimensional optical metamaterial with negative refractive index.Nature,2008,Vol 455(18):376-379.

[95] R F.Servoce.Next Wave of Metamaterials hopes to fuel the revolution.Science,2010,Vol.327:138-139.

[96] Justyna K.Gansel,Michael,et al.Gold helix photonic metamaterial as broadband circular polarizer,Science,2009,Vol 325(18):1513-1515.

[97] Boubacar Kanté,Dylan Germain,André de Lustrac.Experimental demonstration of a nonmagnetic metamaterial cloak at microwave frequencies.Phys.Rev.B,2009,Vol.80:201104.

[98] Ma Hui Feng.Chen.Xi.Yang.Xin Mi.Jiang.Wei Xiang.Cui Tie Jun.Design of multibeam scanning antennas with high gains and low sidelobes using gradient-index metamaterial.Journal of Applied Physics 2010,Vol.107:014902.

[99] Ma,H.F.,Chen,X.,Yang,X.M.,Xu,H.S.,Cheng,Q.,Cui,T.J.,A broad band metamaterial cylindrical lens antenna.Chin.Sci.Bull.,2010,55(19):2066-2070.

[100] Ruopeng Liu,Qiang Cheng,Tie Jun Cui,David R.Smith.Chapter 5 Broadband and Low-Loss Non-Resonant,in Metamaterials: Theory,Design,and Applications.Springer,2009.

[101] Jessie Y.Chin,Ruopeng Liu,Tie Jun Cui,David R.Smith.Chapter 4 Rapid de-sign for metamaterials in“Metamaterials:theory,design,and applications”,Spring er,2009.

[102] N.Fang,H.Lee,et al.Sub-diffraction-limited optical imaging with a silver super lens.Science,2005,Vol.308:534-537.

[103] A.K.Iyer,P.C.Kremer,G.V.Eleftheriades.Experimental and theoretical veri fication of focusing in a large,periodically loadedtransmission line negative refractive index metamaterial.Optics Express,2003,Vol.11(7):696-708.

[104] G.V.Eleftheriades,O.F.Siddiqui.Negative refraction and focusing in hyperbolic transmission-line periodic grids.IEEE Transactions on Microwave and Techniques,2005,Vol.53(1):396-403.

[105] C.Caloz and T.Itoh.Novel microwave devices and structures based on the transmis sion line approach of meta-materials.Microware Symp.Dig.IEEE-MTT Int’l.,2003,Vol.1:195-198.

[106] Sanada,A.,Caloz,C.,Itoh,T..Characteristics of the composite right/left-handed transmission lines.IEEE Microwave and Wireless Components Lett.,2004,Vol.14(2):68-70.

[107] C.Caloz,A.Sanada,L.Liu,T.Itoh.A broadband left-handed(LH)coupled-line backward coupler with arbitrary coupling level.Microwave Symp.Dig.IEEE MTT-S Int.,2003,Vol.1:317-320.

[108] A.Sanada,C.Caloz,T.Itoh.Novel zeroth-order resonance in composite right/left handed transmission line resonator.Proc.Asia-Pacific Microwave Conf.,2003:1588-1591.

[109] C.Caloz and T.Itoh.Application of the transmission line theory of left-handed(LH)materials to the realization of a microstrip LH transmission line.in Proc.IEEE-AP-SUNC/URSI National Radio Science Meeting,San Antonio,TX,2002,Vol.2:412-415.

[110] A.Sanada,C.Caloz and T.Itoh.Planar distributed structures with negative refrac tive index.IEEE Trans.Microwave Theory Tech.,2004,Vol.52(4):1252-1263.

[111] C.Caloz,A.Sanada,T.Itoh.A novel composite right/left-handed coupled-line di rectional coupler with arbitrary coupling level and broad bandwidth.IEEE Trans.on Microwave Theory&Techniques,2004,Vol.52(3):980-992.

[112] A.Grbic,G.V.Eleftheriades.Periodic analysis of a 2-D negative refractive index transmission line structure.IEEE Trans.Antenna and Propagation,2003,Vol.51(10):2604-2611.

[113] C.Caloz,T.Itoh,Electromagnetic metamaterials:transmission Line theory and mi crowave applications”,John Wiley&Sons,2006.

[114] Marco A.Antoniades,and George V.Eleftheriades.Compact linear lead/lag meta material phase shifters for broadband applications.IEEE Antennas and Wireless Prop agation Letters,2003,Vol.2:103-106.

[115] Marco A.Antoniades and George V.Eleftheriades.A broadband wilkinson balun u sing microstrip metamaterial lin.IEEE Antennas and Wireless Propagation Letters,2005,Vol.4:209-211.

[116] G.V.Eleftheriades.Enabling RF/micrewave devices using negtive-refractive-index trransmission-line metamaterials.The Radio Science Bulletin,2005,No.321:57 -69.

[117] Rubaiyat Islam and George V.Eleftheriades.Phase-agile branch-line couplers using metamaterial lines.IEEE Microwave and Wireless Components Letters,2004,Vol.14(7):340-342.

[118] I.H.Lin,M.D.Vincentis and C.Caloz,et.al.Arbitrary dual-band components using composite right/left-handed transmission lines.IEEE Transactions on Micro wave Theory and Techniques,2004,Vol.52(4):1142-1149.

[119] C.J.Lee,K.M.K.H.Leong,T.Itoh.Composite right/left-handed transmission line based compact resonant antennas for RF module integration.IEEE Transactions on Antennas and propagation,2006,Vol.54(8):2283-2291.

[120] S.J.Lim,C.Caloz and T.Itoh.Metamaterial-based electronically controlled trans mission-line structure as a novel leaky-wave antenna with tunable radiation angle and beamwidth.IEEE Transactions on Microwave Theory and Techniques,2004,Vol.52:2678-2690.

[121] A.Grbic and G.V.Eleftheriades.Overcoming the diffraction limit with a planar left-handed transmission-line lens.Phys.Rev.Lett.,2004,Vol.92(11):117403.

[122] F.Martin,F.Falcone and J.Bonache,et.al..Miniaturized coplanar waveguide stop band filters based on multiple tuned split ring resonators.IEEE Microwave and Wireless Components Letters,2003,Vol.13(12):511-513.

[123] F.Falcone,F.Martin and J.Bonache,et.al.Left handed coplanar waveguide band pass filters based on bi-layer split ring resonators.IEEE Microwave and Wireless Components Letters,2004,Vol.14(1):10-12.

[124] J.Garcia-Garcia,F.Martin and F.Falcone,et.al.Microwave filters with improved stopband based on sub-wavelength resonators.IEEE Transactions on Microwave Theory and Techniques,2005,Vol.53(6):1997-2006.

[125] J.Garcia-Garcia,F.Martin and F.Falcone,et.al.Spurious passband suppression in microstrip coupled line band pass filters by means of split ring resonators.IEEE Microwave and Wireless Components Letters,2004,Vol.14(9),416-418.

[126] F.Falcone,T.Lopetegi and M.A.G.Laso,et.al.Babinet principle applied to the design of metasurfaces and metamaterials.Physical Review Letters,2004,Vol.93(19).197401,4.

[127] F.Falcone,T.Lopetegi,J.D.Baena,et.al.Effective negative- · εstopband micros trip lines based on complementary split ring resonators.IEEE Microw.Wireless Com pon.Lett.,2004,Vol.14(6):280-282.

[128] J.Bonache,I.Gil and F.Martin,Novel microstrip bandpass filters based on com plementary split-ring resonators.IEEE Transactions on Microwave Theory and Tech niques,2006,Vol 54(1):265-271。

[129] J.Bonache.I.Gil.detal.Complementary split ring resonators for microstrip diplexer design.Electronics Letters,2005,Vol.41(14):810-811.

[130] Bonache,I.Gil and F.Martin.Novel microstrip bandpass filters based on comple mentary split-ring resonators.IEEE Transactions on Microwave Theory and Tech niques,2006,Vol.54(1):265-271.

[131] Kim,C.S.Cho and J.W.Lee.CPW bandstop filter using slot-type SRRs.Elec tronics Letters,2005,Vol.41:1333-1334.

[132] R.Marqués,J.D.Baena,M.Beruete,et al.Ab initio analysis of frequency selec tive surfaces based on conventional and complementary split ring resonators.J.Opt.,A:Pure Appl.Opt.,2005,Vol.7:38-43.

[133] R.Marqués,F.Martin and M.Sorolla.Metamaterials with Negative Parameters:the ory,design,and microwave applications.John Wiley&Sons,Inc,2008. /rarYY5ecIgyJo8bNaAw9PEuworz7blQkbjST6N841waLZhE2IGjbeQwCX/feh3w

点击中间区域
呼出菜单
上一章
目录
下一章
×