Dual-polarized Slot Antenna For Millimeter Waves

  1. Dual-polarized Slot Antenna For Millimeter Waves Chart
  2. Dual-polarized Slot Antenna For Millimeter Waves Wavelength
  3. Dual Polarized Slot Antenna
  • We describe a new dual-polarized slot antenna to be used with quad-optical devices such as superconductor-insulator-superconductor (SIS) mixers at millimeter and submillimeter wavelengths. The radiation and impedance characteristics of the antenna were obtained from a moment-method calculation.
  • A novel dual-polarized crossed slot planar array antenna is presented in this communication. The proposed design integrates the antenna array with the feeding networks on a single laminate. The antenna element is developed by using a TE210 and TE120 mode cavity, which is constructed by inserting a number of metalized posts around the crossed.
  • We describe a new dual-polarized slot antenna to be used with quasi-optical devices such as superconductor-insulatorsuperconductor (SIS) mixers at millimeter and submillimeter wavelengths.
  • Single- and dual-polarized dielectric lens-supported slot-ring antennas have been developed for operation at millimeter-wave frequencies. The antennas are fed with a coplanar waveguide (CPW) to be.

A dual-polarized slot antenna for millimeter waves By G. Chattopadhyay and J. Zmuidzinas Get PDF (81 KB).

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Electronic Theses and Dissertations, 2004-2019

Title

Author

Keywords

Wideband, Dual-Polarized, Differential, SIW, Cavity Backed, Slot, Antenna, Double-Resonant, Circular Polarization, Array

Abstract

A new technique for designing wideband dual-polarized cavity-backed slot antennas is presented. The structure is in the form of a double-resonant, dual-polarized slot antenna backed by a shallow substrate integrated cavity with a depth of approximately one tenth the free space wavelength. The presence of the cavity behind the slot enhances the antenna's directivity and reduces the possibility of surface wave propagation in the antenna substrate when the element is used in an array environment. Moreover, the dual-polarized nature of this radiating element may be exploited to synthesize any desired polarization (vertical, horizontal, RHCP, or LHCP). The double-resonant behavior observed in this substrate-integrated cavity-backed slot antenna (SICBSA) is utilized to enhance its bandwidth compared to a typical cavity-backed slot antenna. A prototype of the proposed antenna is fabricated and tested. Measurement results indicate that a bandwidth of 19%, an average gain of 5.3 dB, and a wideband differential isolation of 30 dB can be achieved using this technique. The principles of operation along with the measurement results of the fabricated prototype are presented and discussed in this dissertation. The SICBSA is investigated as a candidate for use as an array element. A uniform two element phased array is demonstrated to locate the main beam from boresight to thirty degrees. The potential effects of mutual coupling and surface wave propagation are considered and analyzed.

Notes

If this is your thesis or dissertation, and want to learn how to access it or for more information about readership statistics, contact us at STARS@ucf.edu

Graduation Date

Dual-polarized Slot Antenna For Millimeter Waves Chart

2010

Waves

Advisor

Wahid, Parveen

Degree

Doctor of Philosophy (Ph.D.)

College

Dual-polarized Slot Antenna For Millimeter Waves

College of Engineering and Computer Science

MillimeterDual-polarized slot antenna for millimeter waves chart

Department

Electrical Engineering and Computer Science

Dual-polarized Slot Antenna For Millimeter Waves Wavelength

Degree Program

Electrical Engineering

Format

Dual Polarized Slot Antenna

application/pdf

Dual-polarized slot antenna for millimeter waves wavelength

Identifier

CFE0003066

URL

http://purl.fcla.edu/fcla/etd/CFE0003066

Language

English

Release Date

May 2010

Length of Campus-only Access

None

Access Status

Doctoral Dissertation (Open Access)

STARS Citation

Paryani, Rajesh, 'Design Of A Wideband Dual-polarized Cavity Backed Slot Antenna' (2010). Electronic Theses and Dissertations, 2004-2019. 4226.
https://stars.library.ucf.edu/etd/4226

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