Geodesic
Open Cavity Properties Management by Introduction of Metamaterial Layer
Učënye zapiski Kazanskogo universiteta. Seriâ Fiziko-matematičeskie nauki, Kazanskii Gosudarstvennyi Universitet. Uchenye Zapiski. Seriya Fiziko-Matematichaskie Nauki, Tome 151 (2009) no. 1, pp. 158-165 Cet article a éte moissonné depuis la source Math-Net.Ru

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The paper presents an investigation of waveguide eigenmodes, eigenfrequencies and stability domain of cavity containing metamaterial layers with negative refractive index. Its properties depend on the values of effective diffraction and optical lengths, which can be not only positive, but also negative and zero, in contrast to ordinary cavities. Thus, cavity mode management is possible by introduction of corresponding metamaterial layer.
Keywords: open resonator, metamaterial, negative refractive index, layered structure, longitudinal mode, stability.
Mots-clés : diffraction, transverse mode, dispersion 
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D. O. Saparina; A. P. Sukhorukov. Open Cavity Properties Management by Introduction of Metamaterial Layer. Učënye zapiski Kazanskogo universiteta. Seriâ Fiziko-matematičeskie nauki, Kazanskii Gosudarstvennyi Universitet. Uchenye Zapiski. Seriya Fiziko-Matematichaskie Nauki, Tome 151 (2009) no. 1, pp. 158-165. http://geodesic.mathdoc.fr/item/UZKU_2009_151_1_a20/

[1] Veselago V. G., “Elektrodinamika veschestv s odnovremenno otritsatelnymi znacheniyami $\varepsilon$ i $\mu$”, UFN, 92:3 (1967), 517–526 | DOI

[2] Smith D. R., Padilla W. J., Vier D. C. et al., “Composite Medium with Simultaneously Negative Permeability and Permittivity”, Phys. Rev. Lett., 84:18 (2000), 4184-1–4184-3 | DOI

[3] Shelby R. A., Smith D. R., Schultz S., “Experimental Verification of a Negative Index of Refraction”, Science, 292:5514 (2001), 77–79 | DOI

[4] Parazzoli C. G., Greegor R. B., Li K. et al., “Experimental Verification and Simulation of Negative Index of Refraction Using Snell's Law”, Phys. Rev. Lett., 90:10 (2003), 107401-1–107401-4 | DOI

[5] Yen T. J., Padilla W. J., Fang N. et al., “Terahertz Magnetic Response from Artificial Materials”, Science, 303:5603 (2004), 1494–1496 | DOI

[6] Katsarakis N., Konstantinidis G., Kostopoulos A. et al., “Magnetic response of split-ring resonators in the far-infrared frequency regime”, Opt. Lett., 30:11 (2005), 1348–1350 | DOI

[7] Helgert C., Menzel C., Rockstuhl C. et al., “Polarization-independent negative-index metamaterial in the near infrared”, Opt. Lett., 34:5 (2009), 704–706 | DOI

[8] Shalaev V. M., Cai W., Chattiar U. K. et al., “Negative index of refraction in optical metamaterials”, Opt. Lett., 30:24 (2005), 3356–3358 | DOI

[9] Shalaev V. M., “Negative index of refraction in optical metamaterials”, Nature Photonics, 1 (2007), 41–48 | DOI

[10] Dolling G., Wegener M., Soukoulis C. M. et al., “Negative-index metamaterial at 780 nm wavelength”, Opt. Lett., 32:1 (2007), 53–55 | DOI

[11] Soukoulis C. M., Linden S., Wegener M., “Negative Refractive Index at Optical Wavelengths”, Science, 315:5808 (2007), 47–49 | DOI

[12] Zheludev N. I., Prosvirnin S. L., Papasimakis N., “Lasing spacer”, Nature Photonics, 2 (2008), 351–354 | DOI

[13] Dong Zheng-Gao, Liu Hui, Li Tao et al., “Resonance amplification of left-handed transmission at optical frequencies by stimulated emission of radiation in active metamaterials”, Opt. Expr., 16:25 (2008), 20974–20980 | DOI

[14] Pendry J. B., “Negative Refraction Makes a Perfect Lens”, Phys. Rev. Lett., 85:18 (2000), 3966–3969 | DOI

[15] Panfilova N. O., Saparina D. O., Sukhorukov A. P., “Rasprostranenie volnovykh puchkov v strukturakh, sostavlennykh iz sloev s polozhitelnymi i otritsatelnymi pokazatelyami prelomleniya”, Izv. RAN. Ser. fiz., 70:12 (2006), 1722–1725

[16] Engheta N., “An Idea for Thin Subwavelength Cavity Resonators Using Metamaterials With Negative Permittivity and Permeability”, IEEE Anten. and Wireless Prop. Lett., 1:1 (2002), 10–13 | DOI

[17] Jiang T., Feng Y., “Transmission line realization of subwavelength resonator formed by a pair of conventional and LHM slabs”, J. Zhejiang Univ. Sci. A, 7:1 (2006), 76–80 | DOI | Zbl

[18] Saparina D. O., Sukhorukov A. P., “Svoistva gaussovykh volnovodnykh mod opticheskogo rezonatora s metamaterialom”, Izv. RAN. Ser. fiz., 72:12 (2008), 1701–1703

[19] Saparina D. O., Sukhorukov A. P., “Volnovodnye mody rezonatora, zapolnennogo sloistym materialom s chereduyuschimsya znakom pokazatelya prelomleniya”, Uchen. zap. Kazan. un-ta. Ser. Fiz.-matem. nauki, 150, no. 2, 2008, 208–213

[20] Bykov V. I., Silichev O. O., Lazernye rezonatory, Fizmatlit, M., 2003, 320 pp.

[21] Ananev Yu. A., Opticheskie rezonatory i lazernye puchki, Nauka, M., 1990, 264 pp.