TU-A1.5P.3: Wide-Band, Multi-Beam, High Isolation, Multi-Mode Radial Vivaldi Antenna for Direction Finding
Thomas Hand, Joshua Gustafson, Braiden Olds, Madison Gast, Adam Hess, Sarah Hanson, Aaron Rothlisberger, Erik Lier, Mark Winebrand, William Shultz, Thomas Cencich, William Kefauver, Carlos Romero, Peter Moschetti, Joseph Torres, Lockheed Martin Space Corporation, United States; Eric Kelso, Tristan Johns, Tendeg Corporation, United States
TU-A1.5P.4: Reflectarray-based Intelligent Reflecting Surface to Improve mm-Wave 5G coverage in outdoor scenarios
Álvaro F. Vaquero, Manuel Arrebola, University of Oviedo, Spain; Eduardo Martinez-de-Rioja, Universidad Rey Juan Carlos, Spain; Eduardo Carrasco, José A. Encinar, Universidad Politécnica de Madrid, Spain; Safa Salman, Maha Achour, Metawave Corporation, United States
TU-A1.5P.6: Digital Metasurface Reflectarray Antenna for 5G Millimeter Wave Applications
Gazali Bashir, Amit K. Singh, IIT JAMMU, India; Shiban K. Koul, IIT DELHI, India
TU-A1.5P.7: Dual Band and Dual Polarization Reflectarray Enabling Reflection to Two-dimensional Direction
Hiroshi Hashiguchi, Naobumi Michishita, Hisashi Morishita, National Defense Academy, Japan; Hiromi Matsuno, Takuya Ohto, Masayuki Nakano, KDDI Research, Inc, Japan
TU-A1.5P.8: Design and Analysis of a Ka-band Reflectarray Antenna for Broadband LEO Satellite System
Shimaa Soliman, Ahmed Attiya, Electronics Research Institute, Egypt; Yahia Antar, The Royal Military College of Canada, Canada
TU-A1.5P.9: A Single-Layered Reflectarray Antenna with Split Rectangular Loop Elements
Masayoshi Takao, Yusuke Kaimori, Shota Takino, Shigeru Makino, Kanazawa Institute of Technology, Japan; Hiromasa Nakajima, Yasuhiro Nishioka, Mitsubishi Electric Corporation, Japan
TU-A1.5P.10: Design of a 1-Bit Broadband Low-Cost Metal-Only Reconfigurable Reflectarray with Polarization Transforming Capability
Min Wang, Yuxin Mo, Chongqing University of Posts and Telecommunications, China; Zhengchuan Chen, Chongqing University, China
