TY - GEN
T1 - Plate-laminated corporate-feed slotted waveguide array antenna at 350-GHz band by silicon process
AU - Tekkouk, Karim
AU - Hirokawa, Jiro
AU - Oogimoto, Kazuki
AU - Nagatsuma, Tadao
AU - Seto, Hiroyuki
AU - Inoue, Yoshiyuki
AU - Saito, Mikiko
N1 - Publisher Copyright:
© 2016 IEICE.
PY - 2017/1/17
Y1 - 2017/1/17
N2 - A corporate feed slotted waveguide array antenna with broadband characteristics in term of gain in the 350 GHz band is achieved by measurement for the first time. The etching accuracy for thin laminated plates of the diffusion bonding process with conventional chemical etching is limited to ±20μm. This limits the use of this process for antenna fabrication in the submillimeter wave band where the fabrication tolerances are very severe. To improve the etching accuracy of the thin laminated plates, a new fabrication process has been developed. Each silicon wafer is etched by DRIE (deep reactive ion etcher) and is plated by gold on the surface. This new fabrication process provides better fabrication tolerances about ±5 μm using wafer bond aligner. The thin laminated wafers are then bonded with the diffusion bonding process under high temperature and high pressure. To validate the proposed antenna concepts, an antenna prototype has been designed and fabricated in the 350 GHz band. The 3dB-down gain bandwidth is about 44.6 GHz by this silicon process while it was about 15GHz by the conventional process using metal plates in measurement.
AB - A corporate feed slotted waveguide array antenna with broadband characteristics in term of gain in the 350 GHz band is achieved by measurement for the first time. The etching accuracy for thin laminated plates of the diffusion bonding process with conventional chemical etching is limited to ±20μm. This limits the use of this process for antenna fabrication in the submillimeter wave band where the fabrication tolerances are very severe. To improve the etching accuracy of the thin laminated plates, a new fabrication process has been developed. Each silicon wafer is etched by DRIE (deep reactive ion etcher) and is plated by gold on the surface. This new fabrication process provides better fabrication tolerances about ±5 μm using wafer bond aligner. The thin laminated wafers are then bonded with the diffusion bonding process under high temperature and high pressure. To validate the proposed antenna concepts, an antenna prototype has been designed and fabricated in the 350 GHz band. The 3dB-down gain bandwidth is about 44.6 GHz by this silicon process while it was about 15GHz by the conventional process using metal plates in measurement.
KW - Corporate feed waveguide
KW - DRIE (deep reactive ion etcher)
KW - Diffusion bonding process
KW - Silicon process
KW - Slotted waveguide array
KW - Submillimeter wave antennas
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M3 - Conference contribution
AN - SCOPUS:85013175310
T3 - ISAP 2016 - International Symposium on Antennas and Propagation
SP - 538
EP - 539
BT - ISAP 2016 - International Symposium on Antennas and Propagation
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 21st International Symposium on Antennas and Propagation, ISAP 2016
Y2 - 24 October 2016 through 28 October 2016
ER -