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Physical Bounds of Antennas | SpringerLink
Physical Bounds of Antennas | SpringerLink

PDF] Going beyond Chu harrington limit: ULF radiation with a spinning magnet array | Semantic Scholar
PDF] Going beyond Chu harrington limit: ULF radiation with a spinning magnet array | Semantic Scholar

Volumetric metamaterials versus impedance surfaces in scattering applications
Volumetric metamaterials versus impedance surfaces in scattering applications

At and below the Chu limit: passive and active broad bandwidth metamaterial-based electrically small antennas
At and below the Chu limit: passive and active broad bandwidth metamaterial-based electrically small antennas

PDF] Going beyond Chu harrington limit: ULF radiation with a spinning magnet array | Semantic Scholar
PDF] Going beyond Chu harrington limit: ULF radiation with a spinning magnet array | Semantic Scholar

Design for RF efficiency
Design for RF efficiency

Going Beyond Chu Harrington Limit: ULF Radiation with a Spinning Magnet Array Abstract 1 Introduction 2 Theory
Going Beyond Chu Harrington Limit: ULF Radiation with a Spinning Magnet Array Abstract 1 Introduction 2 Theory

Design for RF efficiency
Design for RF efficiency

Theoretical and practical limits of superdirective antenna arrays - ScienceDirect
Theoretical and practical limits of superdirective antenna arrays - ScienceDirect

Multiband hybrid loop‐notch antennas - Collins - 2019 - IET Microwaves, Antennas & Propagation - Wiley Online Library
Multiband hybrid loop‐notch antennas - Collins - 2019 - IET Microwaves, Antennas & Propagation - Wiley Online Library

Isolated dual‐band meander line antenna loaded with U‐slot and modified CSRR for WLAN applications - Deepak - 2016 - Microwave and Optical Technology Letters - Wiley Online Library
Isolated dual‐band meander line antenna loaded with U‐slot and modified CSRR for WLAN applications - Deepak - 2016 - Microwave and Optical Technology Letters - Wiley Online Library

Design Concerns for In-body Antennas Based on Frequency Analysis of Fundamental Radiation Limitations
Design Concerns for In-body Antennas Based on Frequency Analysis of Fundamental Radiation Limitations

Design for RF efficiency
Design for RF efficiency

At and below the Chu limit: passive and active broad bandwidth metamaterial-based electrically small antennas
At and below the Chu limit: passive and active broad bandwidth metamaterial-based electrically small antennas

Fundamental limits to optical response in absorptive systems
Fundamental limits to optical response in absorptive systems

Going Beyond Chu Harrington Limit: ULF Radiation with a Spinning Magnet Array Abstract 1 Introduction 2 Theory
Going Beyond Chu Harrington Limit: ULF Radiation with a Spinning Magnet Array Abstract 1 Introduction 2 Theory

AWE-Inspiring Electrically Small Antennas
AWE-Inspiring Electrically Small Antennas

Figure 1 from Miniaturization of Robust UHF RFID Antennas for Use on Perishable Goods and Human Bodies | Semantic Scholar
Figure 1 from Miniaturization of Robust UHF RFID Antennas for Use on Perishable Goods and Human Bodies | Semantic Scholar

arXiv:1805.09808v2 [physics.atom-ph] 19 Jun 2018
arXiv:1805.09808v2 [physics.atom-ph] 19 Jun 2018

AALTO UNIVERSITY School of Electrical Engineering Akshay Sridharan DETERMINATION OF Q OF SMALL ANTENNAS Thesis submitted for ex
AALTO UNIVERSITY School of Electrical Engineering Akshay Sridharan DETERMINATION OF Q OF SMALL ANTENNAS Thesis submitted for ex

Comparison of three planar antennas (1. square patch on 1500 µm RO4003,... | Download Scientific Diagram
Comparison of three planar antennas (1. square patch on 1500 µm RO4003,... | Download Scientific Diagram

Quantum-Limited Atomic Receiver in the Electrically Small Regime – arXiv Vanity
Quantum-Limited Atomic Receiver in the Electrically Small Regime – arXiv Vanity

朱兰成- 维基百科,自由的百科全书
朱兰成- 维基百科,自由的百科全书