DocumentCode :
766123
Title :
Exchange Anisotropy of L1 
-Mn 
X (X 
Ir, Rh, Ru)/Co-Fe Bilayers
-Mn X (X Ir, Rh, Ru)/Co-Fe BilayersAuthor :
Tsunoda, Masakiyo ; Naka, Mamiko ; Imakita, Ken-ichi ; Yoshitaki, Shin-Ichiro ; Takahashi, Migaku
Author_Institution :
Dept. of Electron. Eng., Tohoku Univ.
Volume :
42
Issue :
10
fYear :
2006
Firstpage :
2999
Lastpage :
3001
Abstract :
The L12 -phase formation and resultant exchange anisotropy were examined in Mn-Rh/Co-Fe and Mn-Ru/Co-Fe bilayers, varying the substrate temperature, Tsub, during the deposition of Mn-Rh or Mn-Ru layer. The superlattice diffractions from the Mn3Rh were detected. The unidirectional anisotropy constant, JK, was enhanced more than double with increasing T sub from room temperature to 130degC ~ 170degC, similarly to Mn-Ir/Co-Fe bilayers. The maximum JK value obtained was 0.77 erg/cm2 for the Mn-Rh/Co-Fe bilayer and 0.56 erg/cm2 for the Mn-Ru/Co-Fe bilayer. The blocking temperature, TB, was increased about 80degC to 100degC, in accordance with enhancing JK. Variations of JK and TB as a function of antiferromagnetic layer thickness, d AF, were also studied. The critical thickness of dAF was less than 5 nm for both the bilayers
Keywords :
antiferromagnetic materials; cobalt alloys; iridium alloys; iron alloys; manganese alloys; metallic superlattices; perpendicular magnetic anisotropy; rhodium alloys; ruthenium alloys; Mn3Ir-Co-Fe; Mn3Rh-Co-Fe; Mn3Ru-Co-Fe; antiferromagnetic layer thickness; blocking temperature; exchange anisotropy; phase formation; superlattice diffractions; unidirectional anisotropy; Anisotropic magnetoresistance; Antiferromagnetic materials; Electronics industry; Industrial electronics; Iron; Magnetic anisotropy; Manganese alloys; Spin valves; Substrates; Temperature; Antiferromagnet; L1; Mn alloys; blocking temperature; exchange anisotropy;
fLanguage :
English
Journal_Title :
Magnetics, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9464
Type :
jour
DOI :
10.1109/TMAG.2006.879153
Filename :
1704509
Link To Document :
