Monolithic Microwave Nonlinear Phase Shifter

Author

Kuanr, Bijoy K. ; Anderson, Nicholas R. ; Celinski, Zbigniew Jan ; Camley, Robert E.

Author_Institution

Center for Magn. & Magn. Nanostruct., Univ. of Colorado, Colorado Springs, CO, USA

Volume

6

fYear

2015

fDate

2015

Firstpage

1

Lastpage

4

Abstract

A microstrip-based microwave phase shifter that includes a thin Fe film as the active element was designed and fabricated. The device is a monolithic microwave structure that is lightweight and can be integrated on a semiconductor chip. At a fixed frequency, a large change in the phase, , was observed as the power was varied. For 1GHz below the resonance frequency, the maximum power-dependent phase shift is δφ = 55°, and for 1GHz above the resonance frequency the maximum phase shift is δφ = 74°. The experimental results show three different regimes: 1) a linear regime for powers up to 6.3 mW, 2) a stable nonlinear regime for power levels from 6.3 mW to about 1W, and above this, 3) an unstable nonlinear regime. The second regime can be used for microwave signal processing.

Keywords

MMIC phase shifters; iron; metallic thin films; Fe; active element; frequency 1 GHz; maximum power-dependent phase shift; microstrip-based microwave phase shifter; microwave signal processing; monolithic microwave nonlinear phase shifter; resonance frequency; semiconductor chip; thin Fe film; unstable nonlinear regime; Absorption; Iron; Magnetic resonance; Microstrip; Microwave theory and techniques; Phase shifters; Magnetodynamics; Nonlinear Magnetics; Phase Shifter; nonlinear magnetics; phase shifter; waveguides;

fLanguage

English

Journal_Title

Magnetics Letters, IEEE

Publisher

ieee

ISSN

1949-307X

Type

jour

DOI

10.1109/LMAG.2015.2406295

Filename

7047791