Geodesic Half-Maxwell Fish-Eye-Lens Antenna

Yang, Shiyi; Chen, Qiao; Mesa, Francisco; Fonseca, Nelson J. G.; Quevedo–Teruel, Oscar

doi:10.1109/tap.2023.3240333

Cited by 12 publications

(3 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…as an antenna for radar systems [1], space satellite communications [2]- [3], reference radar targets and frequency-coded retroreflectors [4]- [6], power splitters [7], or invisible cloaking [8]. Typical representations of wide-angle lenses are Luneburg lenses [9], Gutman lenses [10]- [11], Maxwell Fish-Eye lenses (MFE) [12]- [16], Eaton lenses [17]- [18], or geodesic lenses [19]. Fabrication techniques for the aforementioned lenses vary from a full metallic implementation (bed-of-nails [20], groove gap waveguide [21], parallel plate waveguide [21]) to the lens realization using dielectric materials (3D printing [23], mechanical or chemical micromachining [5], substrate integrated waveguides [1]).…”

Section: Introductionmentioning

confidence: 99%

Alumina 3D Printed Wide-Angle Partial Maxwell Fish-Eye Lens Antenna

Kaděra,

Sánchez-Pastor,

Sakaki

et al. 2024

Antennas Wirel. Propag. Lett.

View full text Add to dashboard Cite

This paper presents a wide-angle partial Maxwell Fish-Eye (PMFE) lens antenna for W-band millimeter-wave communication, which is realized by alumina 3D printing using lithography-based ceramic manufacturing (LCM). To achieve the targeted permittivity profile, in addition to structural measures, the solid state porosity of alumina, and hence its material permittivity, is controlled by tuning the sintering temperature. The relative permittivity of bulk alumina was set at 5.13 with sintering temperature of 1350 °C, instead of being 9.2 with sintering temperature of 1650 °C. The fabricated 3D lens with a diameter of 33.7 mm achieves a peak realized gain of 25 dBi at a frequency of 109.5 GHz at the boresight, demonstrating a field-ofview (FoV) of ±42° with a planar lens surface.

show abstract

Section: Introductionmentioning

confidence: 99%

Alumina 3D Printed Wide-Angle Partial Maxwell Fish-Eye Lens Antenna

Kaděra,

Sánchez-Pastor,

Sakaki

et al. 2024

Antennas Wirel. Propag. Lett.

View full text Add to dashboard Cite

show abstract

“…To decrease the total height of these lenses, their profile can be mirrored as initially proposed in [4], or modulated as in [5]. Some examples of gradedindex lenses that have been implemented into geodesic shapes are the Luneburg [6], half-Luneburg [7], [8], generalized Luneburg [9], near-field focusing [10], half-Maxwell fisheye [11], and double-layer reflective lenses [12].…”

Section: Introductionmentioning

confidence: 99%

V-Band Monolithic Additive-Manufactured Geodesic Lens Array Antenna

Castillo‐Tapia

Rico-Fernández²,

Quevedo–Teruel

2023

Antennas Wirel. Propag. Lett.

Self Cite

View full text Add to dashboard Cite

Fully metallic geodesic lens antennas are popular for millimetre-wave band applications due to their simplicity, robustness and low loss. Here, we report the experimental results of a geodesic lens array antenna, which was specifically designed to be additive-manufactured in one single piece using Laser Powder-Bed Fusion (LPBF). LPBF in aluminum alloy AlSi10Mg is able to produce high conductivity and relatively low surface roughness, so the antenna is highly directive and efficient. In addition, LPBF increases the robustness of the design since the lens array is monolithic, i.e., the risks associated to the assembly, including misalignments and undesired air gaps between pieces, are totally eliminated.

show abstract

“…Antennas operating at X band, find significant use in remote sensing applications within the aerospace domain. [6][7][8][9][10] Satellites equipped with these antennas facilitate the collection of high-resolution imagery and data for scientific research and environmental monitoring purposes. They support missions related to climate analysis, disaster management, land mapping, and resource exploration.…”

Section: Introductionmentioning

confidence: 99%

A SIW Based Leaky Wave Antenna for Aerospace Applications in X Band

Ramandeep Kaur

2023

IJRITCC

View full text Add to dashboard Cite

In the rapidly advancing field of aerospace communication and radar systems, the demand for high performance antennas operating in the X-band frequency range has increased significantly. For high speed communication, precise navigation, and accurate detection the antenna in X band is required. In this paper, the design and analysis of a substrate integrated waveguide (SIW)-based antenna for aerospace applications operating at a frequency of 10.5 GHz. The proposed antenna design integrates the benefits of SIW technology, such as low loss, compact size, and compatibility with planar fabrication techniques, making it suitable for space-constrained aerospace platforms. The antenna had gain of 9.34 dBi, s11 of design is -28.3 at 10.5 GHz. The radiation pattern is approximately omnidirectional.

show abstract

Geodesic Half-Maxwell Fish-Eye-Lens Antenna

Cited by 12 publications

References 36 publications

Alumina 3D Printed Wide-Angle Partial Maxwell Fish-Eye Lens Antenna

Alumina 3D Printed Wide-Angle Partial Maxwell Fish-Eye Lens Antenna

V-Band Monolithic Additive-Manufactured Geodesic Lens Array Antenna

A SIW Based Leaky Wave Antenna for Aerospace Applications in X Band

Contact Info

Product

Resources

About