International Journal of Microwave Engineering and Technology

Open Access  Subscription or Fee Access

This paper, present the design of double sided metamaterial which reduces the size of Rectangular Microstrip patch antenna. First of all, design the Rectangular Microstrip patch antenna(RMPA) then simulate it with and without metameterial. Without Metamaterial, Rectangular Microstrip patch antenna, is resonate at 5.54 Ghz and its gain is 1.79db , directivity is 4.81dBi and its total efficiency is 30% and with Metamaterial RMPA is resonate at frequency is 2.24 Ghz and gain is 2.03dB and directivity is 5.22dBi, efficiency is 48.27%.The result indicates that metamatarial based Rectangular microstrip patch antenna reduces the size as well as increases the performance of antenna.

V. G. Veselago, “The electrodynamics of substances with simultaneously negative values of μ and ε”, Sov. Phys. Uspekhi, vol. 10, no. 4 (1968), pps. 509 – 514.

Constantine A. Balanis, Antenna Theory and Design, John Wiley & Sons, Inc., 1997.

J.B. Pendry, A.J. Holden, D.J. Robbins, W.J. Stewart, “magnetism from conductors and enhanced nonlinear phenomena” IEEE Trans. Micro Tech. vol.47 no.11 (1999), pp.2075-2081.

D.R. Smith, W.J. Padilla, D.C. Vier, S. C. Nemat-Nasser, and S. Schultz, Composite medium with simultaneously negative permeability and permittivity, Phys Rev Lett 84 (2000), pp. 4184–4187.

David M Pozar, “Microwave Engineering”,4th Edition, john wiley& sons,2004

Introduction of Metamaterial, by Marek S.Wartak, Kosmas L.Tsakmakidis and Ortwin Hess ,Physics of Canada,Vol.67,no.1 (jan-mar,2011)

W.L. Stutzman, G.A. Thiele, Antenna Theory and design, John Wiley & Sons, 2nd Ed., New York, 1998.

Nader Engheta, Richard W. Ziolkowski, “Metamaterial Physics & Engineering Explorations”, Wiley-IEEE Press, June 2006.

Huda A. Mazid, Mohammad Kamal A. Rahim, ThelasaMasri, “Left-handed metamaterial design for microstrip antenna application”, IEEE International RF and Microwave conference, 2008.

Ziolkowski, R. W., “Design, fabrication, and testing of double negative metamaterials," IEEE Transactions on Antennas and Propagation, Vol. 51, No. 7 pp.1516-1529,2003

Wu, B-I, W. Wang, J. Pacheco, X. Chen, T. Grzegorczyk, and J.A. Kong, “A study of using metamaterials as antenna substrate to enhance gain,” Progress in Electromagnetic Research, PIERS 51 pp. 295-328,2005.

Bimal Garg, Vijay Sharma, Nitin Agarwal, “Enchancement of Gain and Directivity of Rectangular resonant Microstrip patch antenna Loaded with “SYMMERTIC W” shaped Double Negative Left- Handed inspired metamaterial”, National Conference on recent Advances in microwave Engineering, 2011

Ahmad A. Sulaiman, Ahmad S. Nasaruddin, “Bandwidth Enhancement in patch antenna by metamaterial substrate”, European Journal of scientific research, 2010.

D. H. Lee, Y. J. Lee, J. Yeo, R. Mittra, and W. S. Park, “Design of novel thin frequency selective surface superstrates

for dual-band directivity enhancement,” IET Microw. Antennas Propag., vol. 1, pp. 248–254, 2007.

G. Lovat, P. Burghignoli, F. Capolino, and D. R. Jackson, R. W. Ziolkowski, “Combinations of low/high permittivity and/or permeability substrates for highly directive planar metamaterial antennas”, IET Microw. Antennas Propag. 1,177 (2007).

Bimal Garg, HimanshuShrivastava, Prem Kumar, “Improvement in parameter of patch Antenna by using “Hybrid Shaped” MEtamaterial Structure”, IJEAT Vol 1, no.3 pp. 271-280 2012

Bimal Garg, Rahul Tiwari, Ashish Kumar and TilakChitransh, “Design of factored ‘X’ shaped metamaterial structure for enhancement of patch antenna gain”, International Conference on Communication Systems and Network Technologies 2011.

S. Pyo, S. –M. Han, J. –W. Baik, W. –S. Yoon, and Y. -S. Kim, “Offset-fed metamaterial antenna for radiation mode generation with efficiency improvement”, IET Microw. Antennas Propag. 4, 1481 (2010).

Silvio Hrabar, JurajBartolic, “Backward Wave Propagation in Waveguide Filled with Negative Permeability Meta Material”, Antennas and Propagation Society International Symposium, vol. 1 pp. 110 – 113,2003