A novel compact ultra-wideband dipole antenna

A simple method for the design of ultra-wideband antennas in planar format is presented. This method is demonstrated for a high-dielectric-constant substrate material, which allows for a considerable antenna size reduction. Simulations are performed using Ansoft's High-Frequency Structure Simulator

## Abstract A novel printed monopole antenna with an ultra‐wide bandwidth is presented. The proposed antenna has very compact size (12 × 22 mm^2^) as well as very simple configuration and easily fed by using a 50 Ω microstrip line. The antenna impedance bandwidth based on S~11~ < −10 dB is from 3 t

In this paper, we have developed a novel field-decomposition technique for the point-matching method (PMM). Using this technique, various types of polygonal geometries can be treated by the same field expansion. This is its great advantage, as compared with the previous method. We have discussed the

## Abstract A double‐discone antenna for an ultra‐wideband frequency scan is presented. An exquisite assembly of two inverse‐feeding discone antennas shows a 30:1 broad bandwidth with VSWR below 2.5 and an omnidirectional radiation pattern. These features make the proposed antenna very suitable for

## Abstract A novel and compact ultra‐wideband (UWB) printed monopole antenna with extended band‐notched designs is presented. The antenna with a total size of 20 mm × 35 mm operates in a band from 3 to over 11 GHz (VSWR ≤ 2), and shows omnidirectional radiation with a low cross‐polarization in the

waveguide loss listed here includes the fiber-to-waveguide coupling loss. So the excess losses for the inverted and conventional structure are Ϫ0.10 Ϯ 0.15 dB and Ϫ0.12 Ϯ 0.15 dB, respectively. ## 6. CONCLUSION In this paper, a low-loss interconnection between an EO polymer and a passive polymer h