Verification of thermally induced nanometer actuation of magnetic recording transducer to overcome mechanical and magnetic spacing challenges

Verification of thermally induced nanometer actuation of magnetic recording transducer to overcome mechanical and magnetic spacing challenges

Protrusion of the recording element during the write process due to Joule heating and eddy-current losses adds a significant constraint in reducing the flying height of sliders found in magnetic recording devices. Variation of the drive temperature also adds similar constraint to the system. One met...

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Veröffentlicht in:IEEE transactions on magnetics 2005-11, Vol.41 (11), p.4350-4352
Hauptverfasser: Suk, M., Miyake, K., Kurita, M., Tanaka, H., Saegusa, S., Robertson, N.
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic transducers
Actuation
Control systems
Cross-disciplinary physics: materials science
rheology
Disk recording
Disks
Exact sciences and technology
Flying
Flying height control
head/disk interface
Heating
Laboratories
Magnetic heads
Magnetic recording
Magnetism
Materials science
Other topics in materials science
Physics
Piezoelectric transducers
Recording
Sliders
Temperature control
thermal actuation
Transducers
write protrusion
Writing
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Zusammenfassung:Protrusion of the recording element during the write process due to Joule heating and eddy-current losses adds a significant constraint in reducing the flying height of sliders found in magnetic recording devices. Variation of the drive temperature also adds similar constraint to the system. One method of overcoming these challenges is to control the relative position of the magnetic recording transducer with respect to the disk surface by thermally heating the transducer region, a concept outlined in a U.S. patent. In this paper, we experimentally show that the thermal actuation concept outlined in the patent can indeed be employed to control the magnetic spacing.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2005.855254