Dissipative Soliton Oscillator With a Nonlinear Spin Wave Transmission Line and a Signal-to-Noise Enhancer in the Feedback Loop

Author

Grishin, Sergey V. ; Dmitriev, Boris S. ; Nikitov, Sergey A. ; Sharaevskii, Yurii P. ; Skorokhodov, Valentin N. ; Zharkov, Yurii D.

Author_Institution

Saratov State Univ., Saratov, Russia

Volume

48

Issue

11

fYear

2012

Firstpage

4382

Lastpage

4385

Abstract

This study reports on a dissipative soliton oscillator utilizing two nonlinear magnetostatic spin wave (MSW) devices in a feedback loop. Both nonlinear MSW devices [a spin wave transmission line (TL) and a signal-to-noise enhancer (SNE)] operate in the frequency band where three-wave parametric processes are allowed. Self-generation of a complex-modulated MW signal is caused by nonlinearity of the spin wave TL. The SNE carries out a passive locking of the spin wave self-modulation frequencies and forms the dissipative soliton trains. It is shown, that electronic control of a repetition interval and pulse ratio of dissipative solitons is realized by the change of a klystron beam current.

Keywords

magneto-optical devices; magnetostatic waves; optical klystrons; optical modulation; optical solitons; complex-modulated MW signal; dissipative soliton oscillator; dissipative soliton trains; dissipative solitons; electronic control; feedback loop; klystron beam current; nonlinear magnetostatic spin wave devices; nonlinear spin wave transmission line; passive locking; pulse ratio; repetition interval; self-generation; signal-to-noise enhancer; spin wave self-modulation frequencies; three-wave parametric processes; Chaos; Correlation; Feedback loop; Klystrons; Magnetostatic waves; Oscillators; Solitons; Ferrite films; solitons; spin waves; synchronization;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2012.2198205

Filename

6332721