https://doi.org/10.1051/epjap:2002014
Investigation of deposition parameters and output functions, and production of low coercivity films
1
Balikesir University, Science & Literature Faculty, Physics Department, Balikesir, 10100, Turkey
2
Cardiff University, Wolfson Centre, Newport Road, PO Box 925, Cardiff, CF24 OYF, UK
Corresponding authors: hkockar@balikesir.edu.tr meydan@cf.ac.uk
Received:
15
March
2001
Revised:
31
October
2001
Accepted:
10
January
2002
Published online: 15 March 2002
The correlation of deposition parameters with output functions when using a novel rotating cryostat (RC) system to produce magnetic materials has been investigated here. In order to do this, an orthogonal design technique was applied for magnetic material production using a resistively heated furnace. The results of orthogonal analysis indicate that the thickness uniformity across the film was not greatly improved, due to the large standard deviation, but an optimum deposition rate was obtained by appropriate choice of control parameters. Furthermore, the orthogonal design process was applied to systematically optimise the production of low coercivity in iron films. The results indicate that the process can be easily optimised.
PACS: 81.15.Ef – Vacuum deposition / 81.15.Aa – Theory and models of film growth / 75.50.Bb – Fe and its alloys
© EDP Sciences, 2002
