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Thu 11 Jun | 13:30 - 15:10
Room: 157AB
This session highlights recent advances in field analysis and experimental characterization techniques enabling next-generation electromagnetic applications. The presented works span high-speed interconnect modeling, topological-wave phenomena for crosstalk suppression, and rigorous experimental studies of surface roughness and time-varying ferrite structures. In addition, quasi-analytical methods for blind-scan-angle estimation in surface-mounted antenna arrays are introduced. Collectively, these contributions emphasize the tight integration of analytical modeling, numerical methods, and experimental validation to address emerging challenges in high-speed, reconfigurable, and unconventional electromagnetic systems.
13:30 - 13:50
Th3D-1 Mixed-Mode Distributed Equivalent Circuit Model of PCIe 7.0 Connector for Accelerating 128 GT/s PAM4 Signal Integrity Analysis
13:50 - 14:10
Th3D-2 Near-End Crosstalk Suppression in Coupled Contra-Directional Chern Topological Edge Modes
14:10 - 14:30
Th3D-3 Experimental Validation of Surface Roughness Effects on Effective Conductivity and Related Applications
14:30 - 14:50
Th3D-4 Modeling and Experimental Verification of Time-Varying Ferrite-Based Microstrip Line
14:50 - 15:10
Th3D-5 Blind-Scan Angle Estimation for Surface-Mounted Antenna Arrays Using a Quasi-Analytical Approach