Title :
Photoresist-based resonator antenna array
Author :
Klymyshyn, D.M. ; Aligodarz, M. Tayfeh ; Rashidian, A. ; Börner, M. ; Mohr, J.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Saskatchewan, Saskatoon, SK, Canada
Abstract :
Photoresist-based polymer-ceramic composites are proposed for single exposure, direct deep X-ray lithography fabrication of dielectric resonator antenna arrays in thick layers. DRA elements based on fabrication in a 2.3 mm thick SU-8/alumina microcomposite layer are combined in a 3×3 antenna array to demonstrate an increase in gain from 5.5 to 13.6 dB at 23 GHz. A second ground plane can be used to reduce backward radiation in the slot-coupled elements by almost 6 dB. An array structure fabricated in 2.3 mm thick SU-8 using deep XRL demonstrates the concept. Thin photoresist connections between array elements could be advantageous for batch fabricating a complicated array directly as a single structure.
Keywords :
X-ray lithography; alumina; ceramics; composite materials; dielectric resonator antennas; microwave antenna arrays; photoresists; polymers; Al2O3; DRA elements; SU-8/alumina microcomposite layer; dielectric resonator antenna arrays; direct deep X-ray lithography; frequency 23 GHz; photoresist connections; polymer-ceramic composites; size 2.3 mm; slot-coupled elements; thick layers; Aluminum oxide; Antenna arrays; Arrays; Ceramics; Fabrication; Polymers; Dielectric resonator antennas; antenna arrays; deep X-ray lithography; microfabrication; polymer antennas; polymer-ceramic microcomposites;
Conference_Titel :
Microwave Conference (GeMIC), 2011 German
Conference_Location :
Darmstadt
Print_ISBN :
978-1-4244-9225-1
Electronic_ISBN :
978-3-9812668-3-2
