A rigorous calculation of the volume occupancy maximum, using the finite integration technique

Significant efforts are invested in the miniaturization of antennas. However size (volume) reduction is not by itself the goal if it comes at the expense of bandwidth reduction. This is why the correct goal in the process of miniaturization is the maximization of the volume occupancy, which is defin...

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Main Authors: Herscovici, N., Beihold, F.
Format: Conference Proceeding
Language:English
Subjects:
Antennas and propagation
Apertures
Bandwidth
Dielectric materials
Electromagnetic radiation
Engines
Material properties
Q factor
Shape
Voltage
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description Significant efforts are invested in the miniaturization of antennas. However size (volume) reduction is not by itself the goal if it comes at the expense of bandwidth reduction. This is why the correct goal in the process of miniaturization is the maximization of the volume occupancy, which is defined as the lowest Q-factor achievable within a given volume. This paper describes a process and first steps results in the development of an efficient process to maximize the volume occupancy. The process starts from the very basic definitions of the Q-factor, and volume occupancy and uses as the computational engine the FIT, or finite integration technique.
doi_str_mv 10.1109/APS.2007.4396864
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subjects Antennas and propagation
Apertures
Bandwidth
Dielectric materials
Electromagnetic radiation
Engines
Material properties
Q factor
Shape
Voltage
title A rigorous calculation of the volume occupancy maximum, using the finite integration technique
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