Title :
Microwave electric field imaging of metamaterials using thermoemissive films
Author :
Crepin, T. ; Issac, F. ; Prost, D. ; Bolioli, S.
Author_Institution :
Onera - The French Aerosp. Lab., Toulouse, France
Abstract :
A new characterization technique for metamaterials is presented for measuring electric-field patterns. The electric-field frames are obtained through a thermoemissive film, located in the near-field domain of the metamaterial. Using an infrared camera, sub-wavelength details can be identified. We applied this technique to antennas based on composite right/left-handed transmission lines (CRLH TLs), also called zeroth-order-resonator (ZOR) antennas. The electric-field distributions of zeroth-order-resonator antennas at frequencies corresponding to longitudinal modes between 4 GHz and 12 GHz were determined. These field frames were in agreement with numerical results obtained by finite-element analysis. This paper addresses techniques for the experimental validation of numerical computations.
Keywords :
finite element analysis; infrared imaging; metamaterial antennas; microwave imaging; microwave metamaterials; CRLH TL; EMIR; ZOR antenna; composite right/left-handed transmission line; electric-field distribution; electric-field frames; electric-field pattern measurement; electromagnetic infrared; finite-element analysis; infrared camera; longitudinal mode; metamaterial; microwave electric field imaging; near-field domain; subwavelength detail; thermoemissive film; zeroth-order-resonator antenna; Antenna measurements; Cameras; Electric fields; Frequency measurement; Metamaterials; Microwave measurement; Thermoelectricity; Transmission line antennas; Transmission line measurements; Composite right/left handed transmission line; ZOR antenna; metamaterial; near field measurement; thermography;
Journal_Title :
Antennas and Propagation Magazine, IEEE
DOI :
10.1109/MAP.2014.6867681
