A dielectric resonator antenna (DRA) is a radio antenna mostly used at microwave frequencies and higher, that consists of a block of ceramic material of various shapes, the dielectric resonator, mounted on a metal surface, a ground plane. Radio waves are introduced into the inside of the resonator material from the transmitter circuit and bounce back and forth between the resonator walls, forming standing waves. The walls of the resonator are partially transparent to radio waves, allowing the radio power to radiate into space.[1]
An advantage of dielectric resonator antennas is they lack metal parts, which become lossy at high frequencies, dissipating energy. So these antennas can have lower losses and be more efficient than metal antennas at high microwave and millimeter wave frequencies.[1] Dielectric waveguide antennas are used in some compact portable wireless devices, and military millimeter-wave radar equipment. The antenna was first proposed by Robert Richtmyer in 1939.[2] In 1982, Long et al. did the first design and test of dielectric resonator antennas considering a leaky waveguide model assuming magnetic conductor model of the dielectric surface .[3] In that very first investigation, Long et al. explored HEM11d mode in a cylindrical shaped ceramic block to radiate broadside. After three decades, yet another mode (HEM12d) bearing identical broadside pattern has been introduced by Guha in 2012.[4]
An antenna like effect is achieved by periodic swing of electrons from its capacitive element to the ground plane which behaves like an inductor. The authors further argued that the operation of a dielectric antenna resembles the antenna conceived by Marconi, the only difference is that inductive element is replaced by the dielectric material.[5]
^ abHuang, Kao-Cheng; David J. Edwards (2008). Millimetre wave antennas for gigabit wireless communications: a practical guide to design and analysis in a system context. USA: John Wiley & Sons. pp. 115–121. ISBN 978-0-470-51598-3.
^Richtmeyer, Robert (1939), "Dielectric Resonators", Journal of Applied Physics, 10 (6): 391–398, Bibcode:1939JAP....10..391R, doi:10.1063/1.1707320
^Long, S.; McAllister, M.; Shen, L. (1983), "The Resonant Cylindrical Dielectric Resonator Antenna", IEEE Transactions on Antennas and Propagation, 31: 406–412, doi:10.1109/tap.1983.1143080
^Guha, D.; et, al. (2012), "Higher Order Mode for High Gain Broadside Radiation from Cylindrical Dielectric Resonator Antennas", IEEE Transactions on Antennas and Propagation, 60: 71–77, doi:10.1109/TAP.2011.2167922, S2CID 26577173
^"New Theory Leads to Gigahertz Antenna on Chip". Retrieved 19 April 2015.
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