Abstract
Abstract
Magnetic field driven domain-wall motion in the creep regime is investigated with Kerr microscopy in out-of-plane magnetized as-deposited and annealed Ta/Pt/CoFeB/Pt multilayers. In addition to the effect of thermal annealing on the quasi-static magnetic properties of Ta (3 nm)/Pt (3 nm)/CoFeB (
t
C
o
F
e
B
nm)/Pt (2 nm) film stacks where
t
C
o
F
e
B
=
{
0.72
,
0.93
}
, the study focuses on the modified interfacial Dzyaloshinskii–Moriya interaction (iDMI) that governs the dynamics of chiral domain walls. The strength of the iDMI decreases with an increase in both
t
C
o
F
e
B
at a fixed annealing temperature and annealing temperature for a fixed
t
C
o
F
e
B
. While the former behaviour arises due to the interfacial nature of iDMI, the latter correlates with the annealing induced suppression of magnetization and enhancement of interface roughness that could be, respectively, ascribed to B-segregation and Co-Fe-Pt intermixing.
Funder
University Grants Commission, India
Subject
Surfaces, Coatings and Films,Acoustics and Ultrasonics,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Cited by
1 articles.
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