Investigation of the Special Features of Low-Temperature Carbon Coating Deposition on the Permalloy Film Surface Under Normal Conditions During Interaction with Aromatic Solvents

Permalloy Fe19Ni81 films are prepared by the method of ion plasma deposition on a single crystal silicon substrate in the presence of a technological magnetic field (100 Oe). The surface of the samples so obtained is modified under various conditions either with preliminary exposure in the presence...

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Bibliographic Details
Published in:Russian physics journal 2017-05, Vol.60 (1), p.157-162
Main Authors: Chlenova, A. A., Svalov, A. V., Shevyrtalov, S. N., Chichai, K. A., Rodionova, V. V., Kurlyandskaya, G. V.
Format: Article
Language:English
Subjects:
Analysis
Carbon content
Coatings
Condensed Matter Physics
Graphene
Hadrons
Heavy Ions
Lasers
Low temperature
Magnetic alloys
Magnetic fields
Magnetic properties
Mathematical and Computational Physics
Nuclear Physics
Optical Devices
Optics
Photonics
Physics
Physics and Astronomy
Silicon
Single crystals
Theoretical
Thin films
Toluene
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Summary:Permalloy Fe19Ni81 films are prepared by the method of ion plasma deposition on a single crystal silicon substrate in the presence of a technological magnetic field (100 Oe). The surface of the samples so obtained is modified under various conditions either with preliminary exposure in the presence of atmospheric oxygen or without it. Processes of low-temperature carbon condensation and defective graphene-like coating formation are observed for the sputtered and toluene exposed films, correspondingly. The method of energy dispersive analysis demonstrates that after fortnight modification in toluene the carbon content on the surface exceeds 30%, which is much higher than the natural ambient carbon background. An increase in the surface modification time in the aromatic toluene solvent to 11 weeks leads to a linear growth of the carbon content on the surface up to 97%. Time of preliminary holding in air before immersion into the aromatic solvent does not influence significantly the kinetics of the carbon coating formation. As a whole, this coating does not influence significantly on the static magnetic properties of the film samples.
ISSN:1064-8887
1573-9228
DOI:10.1007/s11182-017-1054-2