10-15 July 2022 • Denver, Colorado, USA

IEEE AP-S/URSI 2022

10-15 July 2022 • Denver, Colorado, USA

WE-A1.3P.2

A New Method for End-Fire Array Gain Optimization Using Spherical Wave Expansion

Alessio Tornese, Antonio Clemente, Christophe Delaveaud, CEA, France

Session:
Antenna Theory II

Track:
AP-S: Antennas

Location:
Mineral Hall G (HR)

Presentation Time:
Wed, 13 Jul, 13:40 - 14:00 Denver Time (UTC -7)

Session Co-Chairs:
Douglas Werner, Penn State and Satish Sharma, San Diego State University and Galestan Mackertich-Sengerdy, Penn State
Presentation
Discussion
Session WE-A1.3P
WE-A1.3P.1: 2-D Sub-Diffraction Focusing with Concentric Circular Arrays in the Microwave Regime
Nicholas Russo, Constantinos Zekios, Stavros Georgakopoulos, Florida International University, United States
WE-A1.3P.2: A New Method for End-Fire Array Gain Optimization Using Spherical Wave Expansion
Alessio Tornese, Antonio Clemente, Christophe Delaveaud, CEA, France
WE-A1.3P.3: Infinite Array Approach for Distributed Subarray Configuration
Sandip Ghosal, Shashank Kulkarni, MathWorks India Private Limited, India; Vishwanath Iyer, MathWorks, United States
WE-A1.3P.4: Spatial Maps of Reactive Energy Density around Antenna Arrays: An EM Lagrangian Approach
Debdeep Sarkar, Indian Institute of Science, India; Yahia Antar, Royal Military College of Canada, Canada
WE-A1.3P.5: Suppression of Grating Lobes of Large Element Spacing Arrays With Metasurface Lens
Shan Lin, Yuehe Ge, Fuzhou University, China; Zhizhang Chen, Dalhousie University, Canada
WE-A1.3P.6: A Versatile Shape Generation Method for 3D Meander-line Antennas
Ryan Beneck, Galestan Mackertich-Sengerdy, Saber Soltani, Sawyer Campbell, Douglas Werner, Penn State, United States
WE-A1.3P.7: Receiving Antenna Realized Gain Understood by the Poynting Streamline Method
Junming Diao, Mississippi State University, United States; Lu Liu, Jimei University, China
WE-A1.3P.8: Validation of Physics-Based Circuit Model For Multiport Microstrip Antennas Using DCIM
Binbin Yang, North Carolina Agricultural and Technical State University, United States
WE-A1.3P.9: A Probability Density Tapering Approach With Fitness Function Model for Linear Array Thinning
Zhen Ye, Qiang-Ming Cai, Xin Cao, Yuying Zhu, Jun Fan, Southwest University of Science and Technology, China; Li Gu, China Academy of Engineering Physics, China; Mulin Liu, Innovation Center of Zhongshan Torch Modern Industrial Engineering Technology Research Institute, China; Bo Pu, DeTooLIC Technology Co., Ltd, China
Resources
No resources available.