MO-A8.2P.1
A High Gain and Low-Profile AMC-Based AOC by Using Equivalent Inductance Loading Technique for 6G Application
Xihui Teng, Atif Shamim, King Abdullah University of Science and Technology, Saudi Arabia
Session:
AoC and AiP Oral
Track:
AP-S: Track 8: Wireless Communications
Location:
Room 355
Session Time:
Mon, 13 Jul, 15:20 - 17:00
Presentation Time:
Mon, 13 Jul, 15:20 - 15:40
Presentation
Discussion
Session MO-A8.2P
MO-A8.2P.1: A High Gain and Low-Profile AMC-Based AOC by Using Equivalent Inductance Loading Technique for 6G Application
Xihui Teng, Atif Shamim, King Abdullah University of Science and Technology, Saudi Arabia
MO-A8.2P.2: A Compact D-Band eWLB Dual-Antenna Module for Sensing Applications
Alexandros Korres, National Technical University of Athens, Greece; Maciej Wojnowski, Mustafa Dogan, Infineon Technologies AG, Germany; Yannis Papananos, National Technical University of Athens, Greece
MO-A8.2P.3: Characterization of Microvias for Antenna-in-Package Applications
Sekip Dalgac, Sivas University of Science and Technology, Türkiye; Saim Ekici, Nihan Oznazli, ASELSAN – Military Electronics Industry Corporation, Türkiye; Kholoud ELMABRUK, Sivas University of Science and Technology, Türkiye; Mehmet Ünlü, TOBB University of Economics and Technology, Türkiye
MO-A8.2P.4: An On-Chip Metasurface Antenna Design Method Enabling Multi-Beam and Multi-Polarization Operation for 60 GHz Applications
Hanchen Gan, Xihui Teng, Atif Shamim, King Abdullah University of Science and Technology, Saudi Arabia
MO-A8.2P.5: A 200-GHz BiCMOS Traveling-Wave Planar Beamforming Array
Hamad Alotaibi, Chen Shen, Seyed Mehdi Banihashemi, University of Michigan, United States; Zainulabideen Khalifa, King Fahd University of Petroleum and Mineral (KFUPM), Saudi Arabia; Mohammed Aseeri, King Abdulaziz City for Science and Technology (KACST), Saudi Arabia; Ehsan Afshari, University of Michigan, United States
Resources
No resources available.