A miniature printed antenna design that exploits higher-order dispersion behavior in degenerate band edge (DBE) crystals is proposed. First, the unit cell of a DBE crystal is emulated using a simple combination of uncoupled and coupled microstrip (MS) line sections printed on a low loss dielectric substrate. Subsequently, a resonant antenna is formed by cascading two such MS-DBE unit cells in a circularly periodic fashion. The first part of the paper is devoted to the antenna/array design and characterization using a low contrast dielectric substrate (Rogers Duroid, = 2 2). Next, fabrication and design verification using a high dielectric constant substrate (alumina: Al 2 O 3 , = 9 6) is given. The manufactured antenna was measured to have a broadside gain of 4.5 dB at 1.48 GHz with 3.0% bandwidth. For this gain and bandwidth, we demonstrate that the proposed MS-DBE antenna has a 0 9 0 9 footprint and is among the smallest in the literature.Index Terms-Anisotropic media, coupled microstrip lines, degenerate band edge (DBE) crystals, magnetic photonic (MPC) crystals, metamaterials, miniature antennas, printed antennas.
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