2023 APS Logo

IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting

July 23–28, 2023 • Portland, Oregon, USA

23-28 July 2023 • Portland, Oregon, USA

IEEE AP-S/URSI 2023

23-28 July 2023 • Portland, Oregon, USA

FR-A5.3A.1

Comparative analysis of QCTO approaches for Luneburg lens antenna design

Hussain Askari, Yongduk Oh, Jacob Adams, North Carolina State University, United States

Session:
Printed Lens Antennas

Track:
AP-S: Antenna Applications & Emerging Technologies

Location:
C 124 (OCC)

Session Time:
Fri, 28 Jul, 08:00 - 11:40 PDT (UTC -8)
Presentation Time:
Fri, 28 Jul, 08:00 - 08:20 PDT (UTC -8)

Session Co-Chairs:
Philip Lambert, 3D Fortify, Inc and Felix A. Miranda, NASA
Presentation
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Discussion
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Session FR-A5.3A
FR-A5.3A.1: Comparative analysis of QCTO approaches for Luneburg lens antenna design
Hussain Askari, Yongduk Oh, Jacob Adams, North Carolina State University, United States
FR-A5.3A.2: Evaluation of Segmented 3D Printed Luneburg Lenses
Shawn Rogers, ATG, United States; Philip Lambert, Fortify, United States
FR-A5.3A.3: A Wideband Hybrid Metal and Dielectric Reflective Lens Antenna for Millimeter-Wave Applications
Yang Cheng, Yuandan Dong, University of Electronic Science and Technology of China, China
FR-A5.3A.4: A Kirigami-Inspired Foldable Spherical Fully Dielectric Luneburg Lens Antenna
Li-Wei Zhao, Ya Fei Wu, Yong-Xin Guo, National University of Singapore, Singapore
FR-A5.3A.5: 3D-printed Inhomogeneous Graded-Index Lenses For Antenna Applications
Anastasios Paraskevopoulos, Ilir Gashi, Matteo Albani, Stefano Maci, University of Siena, Italy
FR-A5.3A.6: Ultrawideband Gain Enhancement using 3D Printed Dielectric Gradient Refractive Index Lens
Matthew Kunkle, University of Missouri-Kansas City, United States; Roy Allen, Kalyan Durbhakula, Missouri Institute for Defense & Energy, United States
FR-A5.3A.7: Machine Learning Design Approach of 3D Printed Pixelated Lens MIMO Antenna for CubeSat
Mohammed Farouk Nakmouche, Dominic Deslandes, Ghyslain Gagnon, Ecole de technologie superieure, Canada
FR-A5.3A.8: Novel 3D-Printed Flat, Cylindrical Lens for Beam Focusing and Higher Gain of Horn Antenna
Colby Hobart, Fortify, United States
FR-A5.3A.9: High-frequency Limits for 3D-Printed Gradient-index (GRIN) Lens Antennas
Wei Wang, University of Notre Dame, United States; Philip Lambert, 3D Fortify, Inc, United States; Jonathan Chisum, University of Notre Dame, United States
FR-A5.3A.10: Gain Enhancement of a 5G mmWave 2x2 Antenna Array Using a 3D Printed Hemispherical Lens
Adnan Nadeem, National University of Sciences and Technology (NUST), Pakistan; David Chatzichristodoulou, RF and Microwave Solutions, Cyprus; Nosherwan Shoaib, National University of Sciences and Technology (NUST) Islamabad, Pakistan; Photos Vryonides, Symeon Nikolaou, Frederick University, Cyprus
Resources
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