I. J. of Electrical & Electronics Research
Research Article | 
Enhancement Various Parameters of Rectangular Microstrip Patch Antenna with Metamaterial
Author(s): Anshuman Garg and Anjana Goen
Published In : International Journal of Electrical and Electronics Research (IJEER) Volume 2, issue 3
Publisher : FOREX Publication
Published : 30 september 2014
e-ISSN : 2347-470X
Page(s) : 28-31
Abstract
The antenna along with the proposed Meta material structure designed to Resonate at 8.0GHz frequency. But the proposed Meta material cover significantly reduces the return loss and increases the bandwidth, and gain of the antenna in comparison to rectangular micro strip patch antenna. The Metamaterial substrate has a potential to reduce the circuit size of the antenna as well as maintain the amplitude of the return loss at the specific resonant frequency. The most attractive feature of the substrate is the ability of enhancing the bandwidth of a patch antenna at 8.0GHz frequency. The system is firstly modelled by Computer Simulation Technology Software (CST-2010). With the help of CST-2010, The return loss, directivity, & radiation pattern of compact rectangular Patch Antenna operating at 8 . 0 GHz frequency and rectangular Patch Antenna along with designed Meta material shape have been evaluated in this work.
Keywords: Rectangular Microstrip Patch Antenna, Left Handed Metamaterial, Band width, Return loss.
Anshuman Garg*, M.Tech scholar, Dept. of Electronics & Commn., Rustamji Institute of Technology, M.P., India; Email: ansh07031990@gmail.com
Anjana Goen , Head, Dept. of Electronics & Commn., Rustamji Institute of Technology, M.P., India; Email: anjana.rjitbsf@gmail.com
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[1] "IEEE standard definitions of terms for antennas," IEEE Std 145-1983, 1983.
-
[2] Y. P. Zhang and J. J. Wang, "Theory and analysis of differentially-driven microstrip antennas," IEEE Transactions on Antennas and Propagation, vol. 54, pp. 1092-1099, 2006.
-
[3] Constantine A.Balanis, ―Antenna Theory and Designl, John Wiley & Sons, Inc, 1997.
-
[4] V.G. Veselago, ―The electrodynamics of substances with simultaneously negative values of ε and μ, Sov. Phys. Uspekekhy. Vol.10, pp. 509-514, 1968.
-
[5] Pendry JB (2000). Negative refraction makes a prefect lens. Phys Rev Lett.85:3966–3969.
-
[6] Garg B, Tiwari R, Kumar A, Chitransh T (2011). Design of factored X shaped Metamaterial structure for enhancement of patch antenna gain. C.S.N.T. 232-235
-
[7] H.A. Majid, M.K.A. Rahim and T. Marsi, ―Microstrip Antenna gain enhancement using left-handed Metamaterial structure‖, progress in Electromagnetic Research M. Vol.8, 235-247, 2009.
-
[8] K. R. Carver and J. W. Mink, ―Micro strip antenna technology, IEEE Trans. Antennas Propagation, vol. AP-29, no. 1, pp. 2–24, Jan. 1981.
-
[9] H. Nakano, M. Ikeda, K. Hitosugi, and 1. Yamauchi, "A spiral antenna Sandwiched by dielectric layers," IEEE Trans. Antennas Propag., vo1.52, no. 6,Jun. 2004
-
[10] R.W. Ziolkowski, “Design fabricating and fabrication and testing of double negative Metamaterials,” IEEE Transactions on Antennas and Propagation, vol.51, no.7, pp.1516-1529, July 2005.
-
[11]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).
-
[12] V.G. Veselago, ―The electrodynamics of substances with simultaneously negative values of ε and μ, Sov. Phys. Uspekekhy. Vol.10, pp. 509-514, 1968.
-
[13] Wu, B-I, W. Wang, J. Pacheco, X. Chen, T. Grzegorczyk, and J.A. Kong, “A study of using Meta materials as Antenna substrate to enhance gain,” Progress in Electromagnetic Research, PIER 51, pp.295-328, 2005.
-
[14] J.B. Pendry, Negative refraction males a prefect lens, Phys Rev Lett, 85 , 3966–396,2000.
-
[15] David M. Pozar, “Microwave Engineering”, 3rd Edition, John Wiley & Sons, 2004.