IEEE AP-S/URSI 2023 || Portland, Oregon, USA || 23-28 July 2023

Institute of Electrical and Electronics Engineers (IEEE)

International Union of Radio Science

IEEE APS

U.S. NATIONAL COMMITTEE FOR URSI

National Academies Sciences Engineering Medicine

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

TH-A2.1P.3

Constructing Parity Matrices for General Non-Reflecting Surfaces

Roee Geva, Raphael Kastner, Tel Aviv University, Israel

Session:

Metamaterial Modeling

Track:

AP-S: Electromagnetics & Materials

Location:

Oregon Ballroom 204 (OCC)

Session Time:

Thu, 27 Jul, 13:20 - 17:00 PDT (UTC -7)

Presentation Time:

Thu, 27 Jul, 14:00 - 14:20 PDT (UTC -7)

Session Co-Chairs:

Giacomo Oliveri, University of Trento and Fikadu Dagefu, Army Research Laboratory

Session TH-A2.1P

TH-A2.1P.1: Bianisotropic Susceptibility Theory of Artificial Magnetic Conductors

Oscar Céspedes Vicente, Christophe Caloz, KU LEUVEN, Belgium

TH-A2.1P.2: Design of Cost-Effective and Performant Electromagnetic Skins via Non-Radiating Sources

Francesco Zardi, Giacomo Oliveri, Marco Salucci, Andrea Massa, ELEDIA@UniTN - University of Trento, Italy

TH-A2.1P.3: Constructing Parity Matrices for General Non-Reflecting Surfaces

Roee Geva, Raphael Kastner, Tel Aviv University, Israel

TH-A2.1P.4: Design of a Reflective Metasurface with Broadband Low Detectability on 3-D Targets

Wuxia Miao, Lamei Zhang, Bin Zou, Ye Ding, Harbin Institute of Technology, China

TH-A2.1P.5: Design of Pixelated Metasurface Using Genetic Algorithm with HFSS

Ryan Banks, Quang Nguyen, VA Tech, United States; Raenita Fenner, Loyola University, United States; Amir Zaghloul, VA Tech, United States

TH-A2.1P.6: Broadband Metamaterial Design Using Carbon Fiber and Resistive Sheet Materials

Zion Easterbrook, Edmond Chong, Sunny Zhang, Magdy Iskander, Zhengqing Yun, University of Hawaii, United States

TH-A2.1P.7: Fundamental Study on Electrically Controllable Broadband and Thin Non-reciprocal Metasurface

Kazuhiro Takahagi, Alan Tennant, The University of Sheffield, United Kingdom

TH-A2.1P.8: A Comparison of the Bandwidth Coverage for Different Metasurface Reflector Shapes

NUR SYAHIRAH MOHD YAZIZ, MOHAMAD KAMAL A. RAHIM, FARID ZUBIR, NOOR ASMAWATI SAMSURI, UNIVERSITI TEKNOLOGI MALAYSIA, Malaysia

TH-A2.1P.9: A 2-Bit Reconfigurable Reflecting Metasurface for Mm-wave Applications

Fahad Ahmed, Noureddine Melouki, Peyman PourMohammadi, Hassan Naseri, Tayeb A. Denidni, National Institute for Scientific Research (INRS), University du Quebec, Montr ́eal, Canada