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      Photonic magnetic metamaterial basics

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      Author
      Alici, K. B.
      Serebryannikov, A. E.
      Özbay, Ekmel
      Date
      2010-07-21
      Source Title
      Photonics and Nanostructures - Fundamentals and Applications
      Print ISSN
      1569-4410
      Publisher
      Elsevier
      Volume
      9
      Issue
      1
      Pages
      15 - 21
      Language
      English
      Type
      Article
      Item Usage Stats
      173
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      160
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      Abstract
      In the present study, we provide a detailed analysis for the study of photonic metamaterials. We demonstrate the polarization and orientation dependent transmission response of split ring resonators at the infrared and visible band. We provided optical measurements only for one case, in which electric component of the incident field was coupled to planar split ring resonator array. We consecutively studied (i) frequency tuning, (ii) effect of resonator density, (iii) shifting magnetic resonance frequency by changing the resonator shape, and (iv) effect of metal loss and plasma frequency. The study provides an overlook for the candidate applications such as the enhancement of power passing through an electrically small hole, negative index metamaterials and optical metamaterial absorbers.
      Keywords
      Magnetic resonance
      Split ring resonator
      Tunability
      Electric components
      Frequency-tuning
      Incident fields
      Metal loss
      Negative index metamaterial
      Orientation dependent
      Photonic metamaterials
      Plasma frequencies
      Resonance frequencies
      Small hole
      Transmission response
      Visible band
      Electronic equipment
      Optical data processing
      Optical materials
      Optical resonators
      Photonics
      Plasma waves
      Metamaterials
      Permalink
      http://hdl.handle.net/11693/22043
      Published Version (Please cite this version)
      http://dx.doi.org/10.1016/j.photonics.2010.07.005
      Collections
      • Department of Electrical and Electronics Engineering 3597
      • Department of Physics 2329
      • Nanotechnology Research Center (NANOTAM) 1026
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