Ferrimagnetic Nonlinear Transmission Lines as High-Power Microwave Sources

Author

Bragg, J.B. ; Dickens, James C. ; Neuber, Andreas A.

Author_Institution

Dept. of Electr. & Comput. Eng., Texas Tech Univ., Lubbock, TX, USA

Volume

41

Issue

1

fYear

2013

fDate

Jan. 2013

Firstpage

232

Lastpage

237

Abstract

Ferrimagnetic nonlinear transmission lines (NLTLs) have the potential to fill a high-power microwave niche where compact cost-effective sources are lacking. NLTLs utilize nonlinear ferrimagnetic properties and magnetization dynamics to provide ultrafast pulse rise times (100 ps or less) and microwave signals with peak power ranging from kilowatts to hundreds of megawatts. The frequency of operation has been shown to range from 900 MHz up to 5 GHz depending on geometry and external magnetic fields. NLTLs, theoretically, can be pulsed to tens of kilohertz with little to no variance in microwave signal between shots. This paper covers recent advances in ferrimagnetic-based NLTLs, specifically effects of applied and bias magnetic fields on peak power and frequency, as well as temperature dependence.

Keywords

ferrimagnetic materials; magnetic fields; magnetisation; microwave generation; transmission lines; applied magnetic fields; bias magnetic fields; ferrimagnetic nonlinear transmission lines; frequency 900 MHz to 5 GHz; high-power microwave sources; magnetization dynamics; temperature dependence; ultrafast pulse rise times; Ferrites; Magnetomechanical effects; Microwave oscillators; Permeability; Saturation magnetization; Temperature measurement; Ferrimagnetic material; gyromagnetic precession; nonlinear transmission line (NLTL);

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2012.2226169

Filename

6359866