The structural, magnetic and transport properties of Co/Rh sandwiches grown by ultra high vacuum evaporation and sputtering
have been studied. High-energy electron diffraction observations during the growth reveal that both Co and Rh layers have
been stabilised in the (111) fcc structure for the evaporated sandwiches. X-ray measurements performed on sputtered samples
show a predominant fcc polycrystalline structure of the stacks with a preferential (111) texture. Magnetisation and magnetoresistance
measurements show a very strong antiferromagnetic exchange coupling for thin Rh layers, reaching for 4.8? Rh, the strongest ever observed in exchange coupled systems. This value is in good agreement with the value of obtained by ab initio calculations for Co/Rh (hcp) superlattices. This is explained by the magnetic nature of the Co/Rh interfaces. Indeed, the
variation of the measured saturation magnetisation as a function of the Co layer thickness shows no evidence of Co moment
reduction for the Co atoms located at the interfaces, even for the very thin layers. The value of the preserved magnetic moments
of the cobalt atoms at the interfaces is confirmed by ab initio calculations for Co/Rh superlattices taking the intermixing into account.
Received: 18 February 1998 / Received in final form: 30 April 1998 /
Accepted: 29 May 1998 相似文献
Our recent research achievements in the perpendicular magnetic anisotropy (PMA) properties of the CoFeB sand- wiched by MgO and tantalum layers are summarized. We found that the PMA behaviors of Ta/CoFeB/MgO and MgO/CoFeB/Ta thin films are different. The larger PMA in the latter film is related to the lower magnetization of CoFeB deposited on MgO. Furthermore, we have demonstrated a large anomalous Hall effect in perpendicular CoFeB thin fihn. Our results show large anomalous Hall resistivity, large longitudinal resistivity, and low switching field can be achieved, all at the same time, in the perpendicular CoFeB thin film. Anomalous Hall effect with high and linear sensitivity is also found in an MgO/CoFeBFFa thin film with a thick MgO layer, which opens a door tbr future device applications of perpendicular ferromagnetic thin films. 相似文献
Within the framework of the effective field theory with a probability distribution technique that accounts for the single-site
spin correlations, we examine the critical behavior of the transverse ferromagnetic spin-1 Ising model of an alternating magnetic
superlattice. The critical temperature of the alternating magnetic superlattice has been studied as a function of the interlayer
and intralayer exchange interactions and the strength of the transverse field and the thickness of the finite superlattice.
Received 12 January 2000 and Received in final form 14 September 2000 相似文献
The magnetic properties of (ConPdm)r superstructures on Pd(100) and Pd(111) are evaluated using the fully-relativistic spin-polarized screened Korringa-Kohn-Rostoker
method. It is found that only in the case of a Pd(111) substrate such superstructures exhibit perpendicular magnetism, while
on a Pd(100) substrate the magnetization is oriented in-plane. Also investigated is the effect of interdiffusion in repeated
superstructures. By using the inhomogeneous coherent potential approximation (CPA) for layered systems the effect of ordering
into (repeated) superstructures can be described in an ab-initio-like manner. It is found that already small amounts of interdiffusion can be decisive for the actual value of the magnetic
anisotropy energy.
Received 3 November 1999 and Received in final form 18 January 2000 相似文献
Within the framework of two-dimensional (2D) numerical micromagnetic simulations, the equilibrium magnetization configuration
and the high-frequency (0.1–30 GHz) linear response of Co/Fe multilayers have been investigated in detail. Due to the perpendicular
anisotropy of Co layers, a stripe domain pattern can develop through the whole multilayer, the characteristics of which depend
on the magnitude of the perpendicular anisotropy, the respective thicknesses of Co and Fe layers and the number of Co/Fe bilayers
in the stack. One of the most striking features associated with the layering effect is the ripening aspect of the static magnetization
configuration across the multilayers which induces complicated dynamic susceptibility spectra including surface modes and
volume modes strongly confined within the inner Fe layers. The effect of the cubic magnetocrystalline anisotropy of Fe layers
and the influence of a nonuniform perpendicular magnetic anisotropy within the Co layers on the static and dynamic magnetic
properties of Co/Fe multilayers are then analyzed quantitatively. 相似文献
We report on room temperature
ferromagnetic resonance (FMR) studies of [ t Co|2t Ni] × N
sputtered films, where 0.1 ≤ t ≤ 0.6 nm. Two series of
films were investigated: films with the same number of Co|Ni bilayer
repeats (N = 12), and samples in which the overall magnetic layer
thickness is kept constant at 3.6 nm (N = 1.2/t). The FMR
measurements were conducted with a high frequency broadband
coplanar waveguide up to 50 GHz using a flip-chip method. The
resonance field and the full width at half maximum were measured
as a function of frequency for the field in-plane and field normal
to the plane, and as a function of angle to the plane for several
frequencies. For both sets of films, we find evidence for the
presence of first and second order anisotropy constants, K1 and
K2. The anisotropy constants are strongly dependent on the
thickness t, and to a lesser extent on the total thickness of
the magnetic multilayer. The Landé g-factor increases with
decreasing t and is practically independent of the multilayer
thickness. The magnetic damping parameter α, estimated from
the linear dependence of the linewidth ΔH, on
frequency, in the field in-plane geometry, increases with
decreasing t. This behaviour is attributed to an enhancement of
spin-orbit interactions with decreasing Co layer thickness and in thinner films,
to a spin-pumping contribution to the damping. 相似文献
Co/Ti and Co/Zr multilayers with wedge-shaped and constant-thickness Ti and Zr sublayers were prepared using UHV DC/RF magnetron sputtering. Results showed that the Co sublayers are ferromagnetically coupled up to Ti and Zr spacer thickness of about 1.9 and 2.4 nm, respectively. Furthermore, a weak antiferromagnetic coupling of the Co sublayers was observed for a Ti (Zr) thickness range between 1.9 and 2.7 nm (2.4 and 3.2 nm). The Co sublayers are very weakly exchange coupled or decoupled for dTi 2.7 nm and dZr 3.2 nm. The rapid decrease of the interlayer exchange coupling could be explained by its strong damping due to formation of a non-magnetic quasi-amorphous Ti-Co and Zr-Co alloy layer at the interfaces. 相似文献
The effect of the structural quality of the buffer stack on the structural properties, giant magnetoresistance (GMR) and the
quality of the antiferromagnetic coupling has been investigated for Co/Cu/Co sandwiches prepared by DC-magnetron sputtering.
Three kinds of buffers were employed: type A: Cr(6 nm)/Co(0.8 nm)/Cu(10 nm), type B: Fe(6 nm)/Co(0.8 nm)/Cu(10 nm) and type
C: Cr(4 nm)/Fe(3 nm)/Co(0.8 nm)/Cu(10 nm). For B and C type buffers, the antiferromagnetic alignment is very interesting at
zero field with a coupling strength larger than 0.4 erg/cm2 and a GMR signal reaching 5% at room temperature. However, for the A type buffer the antiferromagnetic coupling completely
disappears, while the GMR drops to about 0.8%. X-ray diffraction, atomic force microscopy and transmission electron microscopy
have been performed in order to understand the origin of the observed difference in the magnetic properties. The results show
a strong difference in the average surface roughness, 1.15 nm and 0.35 nm, respectively for the A and C types buffers, and
demonstrate that the quality of the surface of the buffer is the key to optimize both the GMR and the indirect exchange coupling.
Received 11 July 2000 相似文献
Epitaxial thin films of ferromagnetic La0.7Sr0.3MnO3 (LSMO) and charge‐ordered, antiferromagnetic Y0.5Ca0.5MnO3 (YCMO) were deposited on SrTiO3 (100) substrates by pulsed laser deposition (PLD). The heterostructure undergoes tetragonal distortion due to strong biaxial tensile strain imposed by the substrate. The LSMO–YCMO bilayers exhibit significant exchange bias (EB) across the interface even in a very small remnant magnetic field (~5 Oe) present in the superconductor magnet. The unidirectional exchange anisotropy at the interface can be switched by reversing the polarity of the remnant magnetic field.
The magnetization distribution, its energetic characterization by the
interlayer coupling constants and lattice dynamics of (001)-oriented
Fe/Pt multilayers are investigated using density functional theory
combined with the direct method to determine phonon frequencies.
It is found that ferromagnetic order between consecutive Fe layers is
favoured, with the enhanced magnetic moments at the
interface. The bilinear and biquadratic coupling coefficients between Fe
layers are shown to saturate fast with increasing thickness of
nonmagnetic Pt layers which separate them. The phonon calculations
demonstrate a rather strong dependence of partial iron phonon
densities of states on the actual position of Fe monolayer
in the multilayer structure. 相似文献
In the asymptotic limit, the interlayer exchange coupling decays as D-2, where D is the spacer thickness. A systematic procedure for calculating the preasymptotic corrections, i.e., the terms of order D-n with ,is presented. The temperature dependence of the preasymptotic corrections is calculated. The results are used to discuss
the preasymptotic corrections for the Co/Cu/Co(001) system.
Received 7 January 1999 相似文献
We investigate the stability of various ordered FeNi alloys at the
interfaces of Fe/Ni superlattices by using ab initio density
functional calculation. We consider an Fe0.5Ni0.5
ordered alloy of one or two monolayers thick at different
positions beyond the interface and the possibility of
an interdiffusion of a complete monolayer of Ni(Fe) in Fe(Ni) slab.
An interfacial atomic layer of Fe0.5Ni0.5 exchanged with
its adjacent Ni monolayers, leading to a buffer
zone of Ni3Fe composition is found to be the most stable
structural configuration. For this atomic arrangement we investigate
the magnetic profile and the resulting interlayer exchange coupling between
the Ni slabs for Fe spacer thickness of 0 to 4 monolayers. 相似文献
We report here on resistance and magnetoresistance (MR) studies of ultrathin Co/Au(111) single sandwiches and bilayers with
perpendicular magnetization. Resistance of the films was measured in situ in ultrahigh vacuum, during depositions and as a function of a perpendicular applied magnetic field. A large MR variation
with the thickness of Au coverage was observed and compared to calculations. The coercive field of the Co films shows a drastic
variation with the Au coverage thickness, which reflects the theoretical anisotropy variation. It was measured as a function
of temperature. For the first time, the effect of interlayer interaction on the resistivity of a Co bilayer during the growth
of Co top layer, is evidenced and compared to calculations. Finally, hysteresis loops of strongly antiferromagnetically coupled
bilayers are investigated.
Received 3 November 1998 and Received in final form 18 January 1999 相似文献
We examine the critical behavior of a magnetic superlattice which made up of two magnetic materials, A and B. Using the effective field theory with a probability distribution technique that accounts for the single-site spin correlation,
we derive the analytical equation for the Curie temperature of the superlattice which alternates as ABAB...AB. The dependence of the Curie temperature on the interface coupling strength Jab and the layer number of the finite superlattice was calculated. The effects of the surface modification are also studied.
Received 2 March 2001 相似文献
Magnetic multilayers of 57Fe with nominal thickness, Tnom, between 0.4 and 1.0 nm separated by 3.0 nm Al spacer layers were prepared by alternate deposition of the constituents in
high vacuum. The samples were investigated at 4.2 K in external magnetic field. A fraction of Fe atoms corresponding to about
0.3 nm equivalent Fe-thickness was found to mix into the Al spacer. The extremely strong magnetic anisotropy observed for
Tnom < 0.8 nm is attributed to Fe layers of approximately two atomic planes thick. The anisotropy decreases considerably after
the building up of the third Fe atomic layer starts at Tnom = 0.8 nm, but full saturation was not achieved even for Tnom = 1 nm and 3 T magnetic field applied perpendicularly to the sample plane. 相似文献
It is proposed that the magnetization-induced anisotropy of magnetic films of cubic crystal structure originates from the anisotropy of atomic pair ordering, shape anisotropy, and strain anisotropy resulting from the constraint of the magnetostriction strain imposed on the film by the substratc. Calculated are the three anisotropy constants and their sum K vs temperature for Ni, Fe, and 55%Ni-Fe films; the room temperature (RT) constants vs the substrate temperature Tt during deposition or annealing after deposition for Ni and 50%Ni Co films; the RT constants vs com- position fraction for Fe-Ni films with Tt = RT, 250℃ and 450℃, Co Ni films at Tt = RT, 100℃ and 320℃, and Fe-Co films with Tt = RT and 300℃; the spread of RT K vs composition fraction for Fe Ni films; and RT △K/K vs composition fraction for Fe-Ni and Co Ni films, where △K denotes the variation of K of the film that is detached from its substrate. The calculated curves well accord with the measurements. The irrelevancy of K to the substrate material and the fast kinetics of the annealing in a field applied in the direction of the hard axis are explained reasonably.[第一段] 相似文献
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