TU-A1.1A.4
The Conditions of Applicability of Qz and Chu Lower Bounds of Conjugately Matched Antennas
Alexander B. Murray, Ashwin K. Iyer, University of Alberta, Canada
Session:
Electrically Small Antennas I Oral
Track:
AP-S: Track 1: Antenna Modeling, Design, Fabrication
Location:
Room 356
Session Time:
Tue, 14 Jul, 08:00 - 11:40
Presentation Time:
Tue, 14 Jul, 09:00 - 09:20
Presentation
Discussion
Session TU-A1.1A
TU-A1.1A.1: Compact Metaloop Antenna for Circularly Polarized Beam Formation
Tomoki Abe, Hisamatsu Nakano, Hosei University, Japan
TU-A1.1A.2: A two element superdirective dipole array with supergain
Anastasios G. Koutinos, Constantinos L. Zekios, Stavros V. Georgakopoulos, Florida International University, United States
TU-A1.1A.3: An Efficient, Electrically Small, Frequency-Reconfigurable, Multiple-Tuned Antenna for HF
Marcus Walden, Plextek, United Kingdom
TU-A1.1A.4: The Conditions of Applicability of Qz and Chu Lower Bounds of Conjugately Matched Antennas
Alexander B. Murray, Ashwin K. Iyer, University of Alberta, Canada
TU-A1.1A.5: A Versatile Design Method for Inherently Matched and Multiband Small Antennas
Alexander B. Murray, Austin H. M. Fedoretz, Braden P. Smyth, Rashid Mirzavand, Ashwin K. Iyer, University of Alberta, Canada
TU-A1.1A.6: A Plasma-Wrapped Wideband Electrically Small Capped Monopole Antenna
Kushagra Singhal, Abbas Semnani, The University of Toledo, United States
TU-A1.1A.7: Direct Antenna Modulation for Enhanced FSK Throughput
David Schwartz, Trenton Hegranes, Daniel Sievenpiper, University of California San Diego, United States
TU-A1.1A.8: Design and performance observation of a metamaterial-inspired compact electrically small antenna with machine learning for IoT applications.
Sunil Prabhatbhai Lavadiya, marwadi university, India
TU-A1.1A.9: Direct Antenna Modulation for Enhanced FSK Throughput; Comparison to Chu-Limit
David Schwartz, Trenton Hegranes, Daniel Sievenpiper, University of California San Diego, United States
TU-A1.1A.10: Active Matching of Small Transmitting Antennas: Basics, State of the Art, and Future Trends
Silvio Hrabar, University of Zagreb Faculty of Electrical Engineering and Computing, Croatia (Hrvatska)
Resources
No resources available.