We used atomic force microscopy to investigate the magnetic domain configurations in 65-nm-thick cobalt and permalloy rectangular micro-structures, in the virgin state, for various values of the aspect ratios. The two materials exhibited complex magnetic domain structures for lower aspect ratios, but exhibited single-domain structures for higher aspect ratios. In comparison with cobalt films, permalloy films showed much simpler domain structures and larger domain sizes. The domain sizes of cobalt and permalloy films were ∼ 1 µm and ∼ 2 µm, respectively, which were larger than those reported previously. This might have resulted from the large shape anisotropy of our samples. PACS numbers: 7
Journal ArticleMagnetic force microscopy reveals the nature of local magnetic structure in submicron...
The magnetic domain wall width of T-shaped permalloy structures has been measured using a photoemiss...
We present a magnetic force microscopy (MFM) analysis of arrays of submicron-scale Co dots fabricate...
International audienceThe pulsed laser deposition technique associated with a low energy cluster bea...
Two different lithographic techniques have been developed for fabricating magnetic nano-elements on ...
We have investigated the domain structure and reversal mechanism in sub-micron sized magnetic elemen...
The relation between thickness and domain structure of Co80Pt20 perpendicular magnetic an...
The magnetization states of 20-nm-thick rectangular Co thin-film elements are studied with micromagn...
The micromagnetic structure of ultrathin cobalt films was studied under UHV conditions by means of a...
The micromagnetic structure of ultrathin cobalt films was studied under UHV conditions by means of a...
[[abstract]]A magnetic force microscopy is used to examine the domain walls in nickel and cobalt fil...
Thin obalt films, 40 nm and 100 nm in thickness, were evaporated at an incidence angle of 45° in a v...
C. Chappert J. Ferré J. Miltat F. Gautier F. Rousseaux H. van den BergIn the first part of this doct...
X-ray diffraction and magnetic force microscopy techniques were used to investigate the structural a...
The magnetic domain structure in Co nanowires with dimensions x x y x z = 70 nm x 90 nm x 2 gm was e...
Journal ArticleMagnetic force microscopy reveals the nature of local magnetic structure in submicron...
The magnetic domain wall width of T-shaped permalloy structures has been measured using a photoemiss...
We present a magnetic force microscopy (MFM) analysis of arrays of submicron-scale Co dots fabricate...
International audienceThe pulsed laser deposition technique associated with a low energy cluster bea...
Two different lithographic techniques have been developed for fabricating magnetic nano-elements on ...
We have investigated the domain structure and reversal mechanism in sub-micron sized magnetic elemen...
The relation between thickness and domain structure of Co80Pt20 perpendicular magnetic an...
The magnetization states of 20-nm-thick rectangular Co thin-film elements are studied with micromagn...
The micromagnetic structure of ultrathin cobalt films was studied under UHV conditions by means of a...
The micromagnetic structure of ultrathin cobalt films was studied under UHV conditions by means of a...
[[abstract]]A magnetic force microscopy is used to examine the domain walls in nickel and cobalt fil...
Thin obalt films, 40 nm and 100 nm in thickness, were evaporated at an incidence angle of 45° in a v...
C. Chappert J. Ferré J. Miltat F. Gautier F. Rousseaux H. van den BergIn the first part of this doct...
X-ray diffraction and magnetic force microscopy techniques were used to investigate the structural a...
The magnetic domain structure in Co nanowires with dimensions x x y x z = 70 nm x 90 nm x 2 gm was e...
Journal ArticleMagnetic force microscopy reveals the nature of local magnetic structure in submicron...
The magnetic domain wall width of T-shaped permalloy structures has been measured using a photoemiss...
We present a magnetic force microscopy (MFM) analysis of arrays of submicron-scale Co dots fabricate...
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