TH-SS.2A.10
Cyclostationary Signature Reduction with an FM-DSSS Signal via RIS
Jihun Choi, Fikadu Dagefu, DEVCOM Army Research Laboratory, United States
Session:
Challenges and Solutions for Using Metasurfaces and Metagratings in Next-generation Wireless Communication and Sensing Systems I Oral
Track:
Special Sessions
Location:
Room 250B
Session Time:
Thu, 16 Jul, 08:00 - 11:40
Presentation Time:
Thu, 16 Jul, 11:20 - 11:40
Session Co-Chairs:
Mohammadreza Imani, Arizona State University and Ariel Epstein, Technion - Israel Institute of Technology
Presentation
Discussion
Session TH-SS.2A
TH-SS.2A.1: Co-directive Triband Anomalous Reflection Metagratings
Anton Pikalov, Ariel Epstein, Technion - Israel Institute of Technology, Israel
TH-SS.2A.2: Spontaneous Symmetry Breaking in Nonlinear Metagratings
Dimitrios Sounas, Wayne State University, United States
TH-SS.2A.3: Circularly Polarized Reactively Loaded Metasurface Antenna
Malik Almunif, Anthony Grbic, University of Michigan, United States
TH-SS.2A.4: Holographic Synthesis Method for Network-Modeled Tightly Coupled Metasurfaces
Cody Scarborough, Ryan Montoya, Alan Brannon, University of Colorado Boulder, United States
TH-SS.2A.5: Unit Cell Design for Space-Wave to Surface-Wave Coupler Enabled Transporting Metasurfaces
Shaofan Xu, Jordan Budhu, Virginia Tech, United States
TH-SS.2A.6: Reconfigurable Metasurface Antennas for Adaptive Beam Control
Stefano Maci, University of Siena, Italy
TH-SS.2A.7: Optically Driven Reconfigurable Holographic Metasurfaces with Versatile Beamforming
Feiyu Shan, Georgios Trichopoulos, Arizona State University, United States
TH-SS.2A.8: Challenges and Solutions for Ku/Ka-Band PCB-Based Varactor-Tuned Metasurfaces in Next-Generation Wireless Communications
Mohammad Ranjbar Nikkhah, Amin Momeni, Ryan Stevenson, Kymeta Corporation, United States
TH-SS.2A.9: Low-Cost Steerable Ka-Band Reflectarray via Reconfigurable Surfaces
Lucas Newton, Timothy Sleasman, Ra'id Awadallah, Johns Hopkins University Applied Physics Lab, United States
TH-SS.2A.10: Cyclostationary Signature Reduction with an FM-DSSS Signal via RIS
Jihun Choi, Fikadu Dagefu, DEVCOM Army Research Laboratory, United States
Resources
No resources available.