TU-A1.1P.1: Bandwidth Improvement of an Electrically Small Parametric Receiver
Clayton Blosser, Jessica Ruyle, University of Oklahoma, United States; K.C. Kerby-Patel, University of Massachusetts Boston, United States; Kurt Schab, University of Santa Clara, United States
TU-A1.1P.4: Parametric Matching of Electrically Small Antennas for broadband and Low Noise Reception
Lap Yeung, Maziar Hedayati, Mohammadali Panahi, Amirhossein Aalipour, Yuanxun Wang, UCLA, United States
TU-A1.1P.5: Dual-Tone Modulation and Nonlinearities to Extend the Bandwidth of Electrically Small Antennas
Ahmed Makkawy, Gengyu Xu, Akshaj Arora, Yoshiaki Kasahara, Changhao Liu, City University of New York, United States; Dimitrios Sounas, Wayne State University, United States; Leonardo Ranzani, Raytheon, United States; Andrea Alu, City University of New York, United States
TU-A1.1P.6: Spatio-Temporal Modulation of Multimode Electrically-Small Antennas for Efficiency-Bandwidth Enhancement
Zachary Fritts, Steve Young, Amirhossein Babaee, Anthony Grbic, University of Michigan, United States
TU-A1.1P.8: Scaling Power and Efficiency of Direct Antenna Modulation Transmitters using Gallium Nitride Transistors
Joseph Dusenbury, Ajit Attarde, Miheer Mayekar, Jacob Adams, Brian Floyd, North Carolina State Unviversity, United States
TU-A1.1P.9: Overcoming the Bandwidth-Efficiency Product Limitations of Electrically Small Antennas Using A Class-E, Non-LTI HF Antenna Design
Nader Behdad, Daniel Ludois, Mirhamed Mirmozafari, Marisa Liben, University of Wisconsin-Madison, United States
TU-A1.1P.10: Self-oscillating/amplifying Electrically Small Mixed-Multipole Antenna with 10:1 Bandwidth
Silvio Hrabar, University of Zagreb, Croatia (Hrvatska); Richard Ziolkowski, University of Arizona, United States
