Measurement of the Curie temperature distribution in FePt granular magnetic media

• Published in: Applied physics letters Vol. 104; no. 16
• Main Authors: Pisana, S., Jain, S., Reiner, J. W., Parker, G. J., Poon, C. C., Hellwig, O., Stipe, B. C.
• Format: Journal Article
• Language: English
• Published: Melville American Institute of Physics 21.04.2014
• Subjects: Anisotropy; Applied physics; Curie temperature; Data storage; Density; Disk drives; Grains; Heat exchange; Intermetallic compounds; Iron compounds; Magnetic properties; Magnetic recording; Magnetic tape; Magnetic transitions; Magnetism; Platinum compounds; Switching; Temperature; Temperature distribution; Vibration
• ISSN: 0003-6951; 1077-3118
• DOI: 10.1063/1.4873543

Heat assisted magnetic recording (HAMR) has been recognized as a leading technology to increase the data storage density of hard disk drives. Dispersions in the properties of the grains comprising the magnetic medium can lead to grain-to-grain Curie temperature variations, which drastically affect the jitter in the recorded magnetic transitions and limit the data storage density capabilities in HAMR. Here we present a method to measure the switching probability of an ensemble of exchange-decoupled grains with perpendicular anisotropy subject to nanosecond heating pulses. The short heat exposure time ensures that the grains switch by reaching the Curie temperature rather than through thermal activation. The switching probability can be directly interpreted as representing the Curie temperature distribution. The method is applied to two sets of samples to reveal the sensitivity of the Curie temperature distribution to FePt HAMR media fabrication parameters. This technique is of importance to engineer suitable HAMR media capable of high density magnetic recording and for fundamental studies on sources of magnetic disorder in granular magnetic media.