• About
  • Policies
  • What is openaccess
  • Library
  • Contact
Advanced search
      View Item 
      •   BUIR Home
      • Scholarly Publications
      • Faculty of Engineering
      • Department of Electrical and Electronics Engineering
      • View Item
      •   BUIR Home
      • Scholarly Publications
      • Faculty of Engineering
      • Department of Electrical and Electronics Engineering
      • View Item
      JavaScript is disabled for your browser. Some features of this site may not work without it.

      Analysis of cylindrically conformal antennas using closed-form Green's function representations

      Thumbnail
      View / Download
      391.2 Kb
      Author
      Kalfa, Mert
      Karan, S.
      Ertürk, Vakur B.
      Date
      2015-04
      Source Title
      9th European Conference on Antennas and Propagation, EuCAP 2015
      Publisher
      IEEE
      Language
      English
      Type
      Conference Paper
      Item Usage Stats
      75
      views
      24
      downloads
      Abstract
      Probe-fed microstrip patch antennas and slotted sectoral waveguide array antennas embedded in cylindrically stratified media are analyzed with a hybrid Method of Moments/Green's function technique, where closed-form Green's function representations for electric and magnetic current sources are used as the kernel of the associated integral equations. Various patch and slot antennas are analyzed using the proposed method. Numerical results in the form of input impedance, S-parameters, and radiation patterns are presented and compared to the results obtained from CST Microwave Studio™ and HFSS™. © 2015 EurAAP.
      Keywords
      Closed-form Green's functions
      Conformal antennas
      Generalized pencil of function method
      Method of moments
      Antenna arrays
      Directional patterns (antenna)
      Green's function
      Integral equations
      Method of moments
      Microstrip antennas
      Scattering parameters
      CST microwave studio
      Cylindrically stratified media
      Hybrid Method of Moments
      Magnetic current sources
      Micro-strip patch antennas
      Slot antennas
      Permalink
      http://hdl.handle.net/11693/26841
      Published Version (Please cite this version)
      https://ieeexplore.ieee.org/document/7228332
      Collections
      • Department of Electrical and Electronics Engineering 3524
      Show full item record

      Related items

      Showing items related by title, author, creator and subject.

      • Thumbnail

        Three dimensional microfabricated broadband patch and multifunction reconfigurable antennae for 60 GHz applications 

        Hünerli H. V.; Mopidevi, H.; Cağatay, E.; Imbert, M.; Romeu, J.; Jofre, L.; Çetiner, B. A.; Bıyıklı, Necmi (IEEE, 2015-04)
        In this paper we present two antenna designs capable of covering the IEEE 802.11ad (WiGig) frequency band (57-66 GHz and 59-66 GHz respectively). The work below reports the design, microfabrication and characterization of ...
      • Thumbnail

        A triple-band antenna array for next-generation wireless and satellite-based applications 

        Razzaqi, A. A.; Khawaja, B. A.; Ramzan M.; Zafar, M. J.; Nasir, S. A.; Mustaqim, M.; Tarar, M. A.; Tauqeer, T. (Cambridge University Press, 2016)
        In this paper, a triple-band 1 × 2 and 1 × 4 microstrip patch antenna array for next-generation wireless and satellite-based applications are presented. The targeted frequency bands are 3.6, 5.2 and 6.7 GHz, respectively. ...
      • Thumbnail

        Radiation characteristics of a 2D parabolic reflector antenna excited by the H-polarized complex source 

        Oğuzer, T.; Nosich, A. I.; Altıntaş, Ayhan (IEEE, 2002-09)
        The aim of this paper is to obtain accurate reference data for relatively large and realistic reflector antenna systems. We concentrate on a parabolic reflector antenna in the H-polarization case. The directive primary ...

      Browse

      All of BUIRCommunities & CollectionsTitlesAuthorsAdvisorsBy Issue DateKeywordsTypeDepartmentsThis CollectionTitlesAuthorsAdvisorsBy Issue DateKeywordsTypeDepartments

      My Account

      Login

      Statistics

      View Usage StatisticsView Google Analytics Statistics

      Bilkent University

      If you have trouble accessing this page and need to request an alternate format, contact the site administrator. Phone: (312) 290 1771
      Copyright © Bilkent University - Library IT

      Contact Us | Send Feedback | Off-Campus Access | Admin | Privacy