Title :
Intrinsic Reliability of AlOx-Based Magnetic Tunnel Junctions
Author :
Akerman, Johan ; DeHerrera, M. ; Slaughter, J.M. ; Dave, R. ; Sun, J.J. ; Martin, J.T. ; Tehrani, S.
Author_Institution :
Dept. of Microelectron. & Appl. Phys., KTH R. Inst. of Technol., Kista
Abstract :
We present a detailed investigation into the intrinsic tunnel barrier reliability in AlOx-based magnetic tunnel junctions (MTJs) as a function of aluminum thickness and oxidation time. The intrinsic reliability is measured as the ramped breakdown voltage (Vbd) at room temperature for both positive and negative polarity. We find that Vbd generally increases with the resistance-area (RA) product of the MTJ. While this dependence is quite strong at low RA, it gradually weakens for higher RA. At fixed RA, Vbd also depends on the original Al film thickness with better properties for thicker Al. Finally, we observe a polarity dependence of Vbd which changes sign as the MTJ goes from thin Al to thick Al. We attribute the polarity dependence to the different quality of the top and bottom interfaces and conclude that the interface emitting the tunneling electrons primarily governs the barrier reliability
Keywords :
electric breakdown; magnetic tunnelling; magnetoresistive devices; AlO; aluminum thickness; barrier reliability; dielectric breakdown; intrinsic reliability; magnetic memories; magnetic tunnel junctions; magnetoresistive devices; oxidation time; polarity dependence; ramped breakdown voltage; tunneling electrons; Breakdown voltage; CMOS technology; Dielectric breakdown; Dielectric materials; Electrical resistance measurement; Electron emission; Inorganic materials; Magnetic tunneling; Materials reliability; Oxidation; Dielectric breakdown; magnetic memories; magnetoresistive devices; reliability; tunneling;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879735
