Publication detail

A Compact Circularly Polarized High-Gain Antenna Array for Ka-band CubeSats Applications

WARMOWSKA, D. ATIA ABDALMALAK, K. GARCÍA MUÑOZ, L. RAIDA, Z.

Original Title

A Compact Circularly Polarized High-Gain Antenna Array for Ka-band CubeSats Applications

English Title

A Compact Circularly Polarized High-Gain Antenna Array for Ka-band CubeSats Applications

Type

conference proceedings

Language

en

Original Abstract

In this work, we present a high-gain, low-profile circularly polarized 8×8 element antenna array operating in Ka-band at 35 GHz. The antenna is a great fit for establishing a communication link between a CubeSat and ground station. The performance was validated using full-wave simulation. Finally, a prototype of the antenna was manufactured by 3D-printing and its performance was measured.

English abstract

In this work, we present a high-gain, low-profile circularly polarized 8×8 element antenna array operating in Ka-band at 35 GHz. The antenna is a great fit for establishing a communication link between a CubeSat and ground station. The performance was validated using full-wave simulation. Finally, a prototype of the antenna was manufactured by 3D-printing and its performance was measured.

Keywords

circular polarization, Ka-band, millimeter waves, corporate feed, 3D printing, CubeSats

Released

09.09.2019

Publisher

IEEE

Location

Grenada

Pages from

1

Pages to

2

Pages count

2

BibTex


@proceedings{BUT157647,
  author="Dominika {Warmowska} and Kerlos {Atia Abdalmalak} and Luis Enrique {García Muñoz} and Zbyněk {Raida}",
  title="A Compact Circularly Polarized High-Gain Antenna Array for Ka-band CubeSats Applications",
  annote="In this work, we present a high-gain, low-profile circularly polarized 8×8 element antenna array operating in Ka-band at 35 GHz. The antenna is a great fit for establishing a communication link between a CubeSat and ground station. The performance was validated using full-wave simulation. Finally, a prototype of the antenna was manufactured by 3D-printing and its performance was measured.",
  address="IEEE",
  chapter="157647",
  howpublished="online",
  institution="IEEE",
  year="2019",
  month="september",
  pages="1--2",
  publisher="IEEE",
  type="conference proceedings"
}