Magnetic properties of electroplated nano/microgranular NiFe thin films for rf application

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Magnetic properties of electroplated nano/microgranular NiFe thin films for rf application

Journal Article (2005)

Author(s)

Y Zhuang (TU Delft - Old - EWI Ch. Integrated Sensing Devices)

M Vroubel (TU Delft - Old - EWI Ch. Integrated Sensing Devices)

B Rajaei Salmasi (TU Delft - Old - EWI Ch. Integrated Sensing Devices)

JN Burghartz (TU Delft - Old - EWI Ch. Integrated Sensing Devices)

K Attenborough (External organisation)

Research Group

Old - EWI Ch. Integrated Sensing Devices

DOI related publication

https://doi.org/doi:10.1063/1.1857391

Academic journal papers ZX CWTS 1.00 <= JFIS < 3.00

To reference this document use:

https://resolver.tudelft.nl/uuid:ced04fe2-bde8-4561-bd78-86a18fdf766c

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Publication Year

2005

Research Group

Old - EWI Ch. Integrated Sensing Devices

Issue number

2-3

Volume number

97

Pages (from-to)

1-3

Abstract

A granular NiFe thin film with large in-plane magnetic anisotropy and high ferromagnetic-resonance frequency developed for radio-frequency integrated circuit (IC) applications is presented. During the deposition, three-dimensional (3D) growth occurs, yielding NiFe grains (~1.0 µm). Nanonuclei (~30¿50 nm) are observed in single NiFe grains by atomic-force microscopy (AFM). The in-plane magnetic anisotropy is estimated to be ~50 mT. The frequency-dependent complex permeability is extracted. By taking the NiFe film as a magnetic core, solenoid-type inductors are fabricated and demonstrated and show a high operating frequency (~5.5 GHz) with a maximum quality factor (~3). ©2005 American Institute of Physics

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