Domain formation characteristics during thermomagnetic recording for amorphous TbFe and TbFeCo alloy thin films
- 1 January 1989
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Magnetics
- Vol. 25 (5) , 4039-4041
- https://doi.org/10.1109/20.42516
Abstract
The configurational characteristics of thermomagnetically written domains under a static laser irradiation condition were observed by using a polarizing microscope. The shapes of the domains were categorized into three distinctly different types: (1) circular domains with size almost independent of the applied field, (2) domains growing in size and assuming smoother boundaries with increasing applied field, and (3) domains unrecordable at any condition. It was confirmed that the domain configurations were determined mainly by which one was the dominant controlling factor between demagnetizing and domain wall energy at elevated temperatures in the thermomagnetic recording process. The bit shape irregularity found in some alloys of TbFe was attributed to nonuniformity in magnetic properties inherent in the amorphous structureKeywords
This publication has 8 references indexed in Scilit:
- Observation of domain expansion and contraction in TbFe films by Lorentz microscopyIEEE Transactions on Magnetics, 1988
- Thermomagnetic writing in Tb-Fe: Modeling and comparison with experimentJournal of Applied Physics, 1988
- Study on recorded domain characteristics of magneto-optical TbFeCo disksJournal of Applied Physics, 1988
- Compositional dependence of recording noise in amorphous rare-earth–transition-metal magneto-optical disksJournal of Applied Physics, 1988
- Interference enhanced magnetic Kerr rotation in compositionally modulated TbFe/SiO filmsIEEE Transactions on Magnetics, 1988
- Dynamics and factors controlling regularity of thermomagnetically written domainsJournal of Applied Physics, 1987
- Operating margins for magneto-optic recording materials with direct overwrite capabilityIEEE Transactions on Magnetics, 1987
- Magneto-optic recording technology (invited)Journal of Applied Physics, 1985