Hybrid Electromagnetic Modeling of Lens-Integrated Antennas for Non-Contact On-Wafer Characterization of THz Devices and Integrated Circuits

Cosan Caglayan; Georgios Trichopoulos; Kubilay Sertel

Hybrid Electromagnetic Modeling of Lens-Integrated Antennas for Non-Contact On-Wafer Characterization of THz Devices and Integrated Circuits

Cosan Caglayan, Georgios Trichopoulos, Kubilay Sertel

Research output: Contribution to specialist publication › Article

Abstract

A hybrid full-wave/quasi-optical electromagnetic model for the design of lens-integrated THz antennas for high frequency non-contact device characterization (30 GHz – 3 THz) is presented. Experimental validation of the antenna properties (input impedance and radiation pattern) is also provided to demonstrate the accuracy of the proposed model.

Original language	English (US)
Pages	107-110
Number of pages	4
Volume	33
No	1
Specialist publication	Applied Computational Electromagnetics Society Newsletter
State	Published - Jan 2018

Keywords

Double-slot antenna
Lens antenna
Moment method
Ray tracing
Sub-millimeter waves

ASJC Scopus subject areas

Astronomy and Astrophysics
Electrical and Electronic Engineering

Cite this

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abstract = "A hybrid full-wave/quasi-optical electromagnetic model for the design of lens-integrated THz antennas for high frequency non-contact device characterization (30 GHz – 3 THz) is presented. Experimental validation of the antenna properties (input impedance and radiation pattern) is also provided to demonstrate the accuracy of the proposed model.",

keywords = "Double-slot antenna, Lens antenna, Moment method, Ray tracing, Sub-millimeter waves",

author = "Cosan Caglayan and Georgios Trichopoulos and Kubilay Sertel",

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AU - Sertel, Kubilay

N1 - Publisher Copyright: © ACES

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N2 - A hybrid full-wave/quasi-optical electromagnetic model for the design of lens-integrated THz antennas for high frequency non-contact device characterization (30 GHz – 3 THz) is presented. Experimental validation of the antenna properties (input impedance and radiation pattern) is also provided to demonstrate the accuracy of the proposed model.

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Hybrid Electromagnetic Modeling of Lens-Integrated Antennas for Non-Contact On-Wafer Characterization of THz Devices and Integrated Circuits

Abstract

Keywords

ASJC Scopus subject areas

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