Title :
Voltage control of magnetization easy-axes: a potential candidate for spin switching in future ultrahigh-density nonvolatile magnetic random access memory
Author :
Kim, Sang-Koog ; Shin, Sung-Chul ; No, Kwangsoo
Author_Institution :
Sch. of Mater. Sci., Seoul Nat. Univ., South Korea
fDate :
7/1/2004 12:00:00 AM
Abstract :
We report a challenging attempt to switch magnetization directions in ferromagnetic films by applying a voltage instead of an external magnetic field. As an example, a voltage control of magnetization easy-axes in a newly developed hybrid system of ferromagnetic/piezoelectric films has been demonstrated by using the well-known effects of both the inverse magnetostriction of ferromagnetic CoPd alloys and the inverse piezoelectricity of lead-zirconate-titanate alloy films. This information-storage and writing method suitable for use in an ultrahigh-density nonvolatile magnetic random access memory may prove to be a new paradigm in information-storage technology.
Keywords :
cobalt alloys; ferromagnetic materials; magnetic recording; magnetic storage; magnetic thin films; magnetisation; magnetostriction; palladium alloys; piezoelectric materials; random-access storage; voltage control; CoPd; CoPd-PZT hybrid; controllable spin switching; ferromagnetic CoPd alloys; ferromagnetic films; information-storage technology; inverse magnetostriction; inverse piezoelectricity; lead-zirconate-titanate alloy films; magnetic field; magnetic random access memory; magnetization direction switching; magnetization easy-axes; magnetostrictive effect; piezoelectric effect; piezoelectric films; ultrahigh-density MRAM; voltage control; writing method; Iron alloys; Magnetic films; Magnetic switching; Magnetization; Magnetostriction; Nonvolatile memory; Piezoelectric films; Random access memory; Switches; Voltage control; CoPd/PZT hybrid; Controllable spin switching; magnetostrictive effect; piezoelectric effect; voltage control;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.830435
