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40 results on '"Beaujour, J.-M."'

1. Spin-torque driven ferromagnetic resonance in a nonlinear regime

Author

Chen, W., de Loubens, G., Beaujour, J-M. L., Sun, J. Z., and Kent, A. D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin-valve based nanojunctions incorporating Co|Ni multilayers with perpendicular anisotropy were used to study spin-torque driven ferromagnetic resonance (ST-FMR) in a nonlinear regime. Perpendicular field swept resonance lines were measured under a large amplitude microwave current excitation, which produces a large angle precession of the Co|Ni layer magnetization. With increasing rf power the resonance lines broaden and become asymmetric, with their peak shifting to lower applied field. A nonhysteretic step jump in ST-FMR voltage signal was also observed at high powers. The results are analyzed in in terms of the foldover effect of a forced nonlinear oscillator and compared to macrospin simulations. The ST-FMR nonhysteretic step response may have applications in frequency and amplitude tunable nanoscale field sensors., Comment: 4 pages, 3 figures, to appear in Applied Physics Letters

Published
2009
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2. Ferromagnetic resonance linewidth in ultrathin films with perpendicular magnetic anisotropy

Author

Beaujour, J-M., Ravelosona, D., Tudosa, I., Fullerton, E., and Kent, A. D.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transition metal ferromagnetic films with perpendicular magnetic anisotropy (PMA) have ferromagnetic resonance (FMR) linewidths that are one order of magnitude larger than soft magnetic materials, such as pure iron (Fe) and permalloy (NiFe) thin films. A broadband FMR setup has been used to investigate the origin of the enhanced linewidth in Ni$|$Co multilayer films with PMA. The FMR linewidth depends linearly on frequency for perpendicular applied fields and increases significantly when the magnetization is rotated into the film plane. Irradiation of the film with Helium ions decreases the PMA and the distribution of PMA parameters. This leads to a great reduction of the FMR linewidth for in-plane magnetization. These results suggest that fluctuations in PMA lead to a large two magnon scattering contribution to the linewidth for in-plane magnetization and establish that the Gilbert damping is enhanced in such materials ($\alpha \approx 0.04$, compared to $\alpha \approx 0.002$ for pure Fe).

Published
2009
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3. Finite size effects on spin-torque driven ferromagnetic resonance in spin-valves with a Co/Ni synthetic free layer

Author

Chen, W., de Loubens, G., Beaujour, J-M. L., Kent, A. D., and Sun, J. Z.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Spin-torque driven ferromagnetic resonance (ST-FMR) is used to study magnetic excitations in Co/Ni synthetic layers confined in nanojunctions. Field swept ST-FMR measurements were conducted with a magnetic field applied perpendicular to the layer surface. The resonance lines were measured under low amplitude excitation in a linear response regime. The resulting resonance fields were compared with those obtained using conventional rf field driven FMR on extended films with the same Co/Ni layer structure. A lower resonance field is found in confined structures. The effect of both dipolar fields acting on the Co/Ni layer emanating from other magnetic layers in the device and finite size effects on the spin wave spectrum are discussed., Comment: 3 pages, 3 figures

Published
2007
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4. Spin-torque driven ferromagnetic resonance of Co/Ni synthetic layers in spin valves

Author

Chen, W., Beaujour, J-M. L., de Loubens, G., Kent, A. D., and Sun, J. Z.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Spin-torque driven ferromagnetic resonance (ST-FMR) is used to study thin Co/Ni synthetic layers with perpendicular anisotropy confined in spin-valve based nanojunctions. Field swept ST-FMR measurements were conducted with a magnetic field applied perpendicular to the layer surface. The resonance lines were measured under low amplitude rf excitation, from 1 to 20 GHz. These results are compared with those obtained using conventional rf field driven FMR on extended films with the same Co/Ni layer structure. The layers confined in spin valves have a lower resonance field, a narrower resonance linewidth and approximately the same linewidth vs frequency slope, implying the same damping parameter. The critical current for magnetic excitations is determined from measurements of the resonance linewidth vs dc current and is in accord with the one determined from I-V measurements., Comment: 3 pages, 3 figures

Published
2007
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5. Ferromagnetic resonance study of polycrystalline Fe_{1-x}V_x alloy thin films

Author

Beaujour, J-M. L., Kent, A. D., and Sun, J. Z.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Ferromagnetic resonance has been used to study the magnetic properties and magnetization dynamics of polycrystalline Fe$_{1-x}$V$_{x}$ alloy films with $0\leq x < 0.7$. Films were produced by co-sputtering from separate Fe and V targets, leading to a composition gradient across a Si substrate. FMR studies were conducted at room temperature with a broadband coplanar waveguide at frequencies up to 50 GHz using the flip-chip method. The effective demagnetization field $4 \pi M_{\mathrm{eff}}$ and the Gilbert damping parameter $\alpha$ have been determined as a function of V concentration. The results are compared to those of epitaxial FeV films.

Published
2007
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6. Ferromagnetic resonance study of sputtered Co|Ni multilayers

Author

Beaujour, J-M. L., Chen, W., Krycka, K., Kao, C-C., Sun, J. Z., and Kent, A. D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on room temperature ferromagnetic resonance (FMR) studies of [$t$ Co$|2t$ Ni]$\times$N sputtered films, where $0.1 \leq t \leq 0.6$ nm. Two series of films were investigated: films with 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, $K_1$ and $K_2$. The anisotropy constants are strongly dependent on the thickness $t$, and to a lesser extent on the total thickness of the magnetic multilayer. The Land\'e g-factor increases with decreasing $t$ and is practically independent of the multilayer thickness. The magnetic damping parameter $\alpha$, estimated from the linear dependence of the linewidth, $\triangle H$, on frequency, in the field in-plane geometry, increases with decreasing $t$. This behaviour is attributed to an enhancement of spin-orbit interactions with $t$ decreasing and in thinner films, to a spin-pumping contribution to the damping., Comment: 18 pages, 13 figures

Published
2006
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7. Magnetization damping in polycrystalline Co ultra-thin films: Evidence for non-local effects

Author

Beaujour, J-M. L., Lee, J. H., Kent, A. D., Krycka, K., and Kao, C-C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The magnetic properties and magnetization dynamics of polycrystalline ultra-thin Co layers were investigated using a broadband ferromagnetic resonance (FMR) technique at room temperature. A variable thickness (1 nm $\leq t \leq$ 10 nm) Co layer is sandwiched between 10 nm thick Cu layers (10 nm Cu| t Co|10 nm Cu), while materials in contact with the Cu outer interfaces are varied to determine their influence on the magnetization damping. The resonance field and the linewidth were studied for in-plane magnetic fields in field swept experiments at a fixed frequency, from 4 to 25 GHz. The Co layers have a lower magnetization density than the bulk, and an interface contribution to the magnetic anisotropy normal to the film plane. The Gilbert damping, as determined from the frequency dependence of the linewidth, increases with decreasing Co layer thickness for films with outer Pt layers. This enhancement is not observed in structures without Pt layers. The result can be understood in terms of a non-local contribution to the damping due to spin pumping from Co through the Cu layer and spin relaxation in Pt layers. Pt layers just 1.5 nm thick are found to be sufficient to enhance the damping and thus act as efficient "spin-sinks". In structures with Pt outer layers, this non-local contribution to the damping becomes predominant when the Co layer is thinner than 4 nm.

Published
2006
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8. Ferromagnetic resonance study of polycrystalline Cobalt ultrathin films

Author

Beaujour, J-M. L., Chen, W., Kent, A. D., and Sun, J. Z.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present room temperature ferromagnetic resonance (FMR) studies of polycrystalline ||Pt/10 nm Cu/t Co/10 nm Cu/Pt|| films as a function of Co layer thickness (1 < t < 10 nm) grown by evaporation and magnetron sputtering. FMR was studied with a high frequency broadband coplanar waveguide (up to 25 GHz) using a flip-chip method. The resonance field and the linewidth were measured as a function of the ferromagnetic layer thickness. The evaporated films exhibit a lower magnetization density (Ms = 1131 emu/cm^3) compared to the sputtered films (Ms= 1333 emu/cm^3), with practically equal perpendicular surface anisotropy (Ks ~ -0.5 erg/cm^2). For both series of films, a strong increase of the linewidth was observed for Co layer thickness below 3 nm. For films with a ferromagnetic layer thinner than 4 nm, the damping of the sputtered films is larger than that of the evaporated films. The thickness dependence of the linewidth can be understood in term of the spin pumping effect, from which the interface spin mixing conductance g^{\uparrow\downarrow}S^{-1} is deduced.

Published
2005
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9. Giant Magnetoresistance by Exchange Springs in DyFe$_2$/YFe$_2$ Superlattices

Author

Gordeev, S. N., Beaujour, J-M. L., Bowden, G. J., de Groot, P. A. J., Rainford, B. D., Ward, R. C. C., Wells, M. R ., and Jansen, A. G. M.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Magnetization and magnetoresistance measurements are reported for antiferromagnetically coupled DyFe$_2$/YFe$_2$ multilayers in fields up to 23 T. We demonstrate that the formation of short exchange springs (~ 2 nm) in the magnetically soft YFe$_2$ layers results in a giant magneto-resistance as high as 32% in the spring region. It is shown that both the magnitude of the effect, and its dependence on magnetic field, are in good agreement with the theory of Levy and Zhang for giant magnetoresistance due to domain wall like structures., Comment: 4 pages, 4 figures, submitted to Phys. Rev. Lett

Published
2001
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10. Spin configurations and negative coercivity in epitaxially grown DyFe2/YFe2 superlattices

Author

Gordeev, S.N., Beaujour, J.-M. L., Bowden, G.J., Groot, P.A.J. de, Rainford, B.D., Ward, R.C.C., and Wells, M.R.

Subjects
Magnetization -- Research, Superlattices as materials -- Research, Physics
Abstract

It has been possible to grow single crystal Laves phase DyFe2/YFe2 superlattice samples with a (110) growth direction using molecular beam epitaxial techniques. It is concluded that the magnetization loop is almost totally determined by the magnetic exchange springs found in the soft YFe2 layers.

Published
2001

11. Finite size effects on spin-torque driven ferromagnetic resonance in spin valves with a Co/Ni synthetic free layer

Author

Chen, W., de Loubens, G., Beaujour, J,-M,L., Kent, A.D., and Sun, J.Z.

Subjects
Cobalt alloys -- Magnetic properties, Cobalt alloys -- Structure, Ferromagnetism -- Analysis, Nickel -- Magnetic properties, Spin coupling -- Analysis, Physics
Abstract

Spin-torque driven ferromagnetic resonance (ST-FMR) is used for studying the magnetic excitations in Co/Ni synthetic layers confined in nanojunctions. The effect of both dipolar fields acting on the Co/Ni layer emanating from other magnetic layers in the device and finite size effects on the spin wave spectrum are examined.

Published
2008

12. Ferromagnetic resonance study of polycrystalline cobalt ultrathin films

Author

Beaujour, J.-M. L., W. Chen, Kent, A. D., and Sun, J. Z.

Subjects
Physics
Abstract

Room-temperature ferromagnetic resonance (FMR) studies of polycrystalline films are presented as a function of Co layer thickness grown by evaporation and magnetron sputtering. Calculation of the spin-mixing conductance at Co/Cu interface showed smaller conductance for evaporated films with Pt layer of 1-5 nm than for sputtered films that have a Pt layer of 5nm.

Published
2006

13. Ferromagnetic resonance study of Co/Pd/Co/Ni multilayers with perpendicular anisotropy irradiated with helium ions.

Author

Beaujour, J. -M. L., Kent, A. D., Ravelosona, D., Tudosa, I., and Fullerton, E. E.

Subjects
*COBALT, *NICKEL, *PALLADIUM, *FERROMAGNETIC resonance, *HELIUM, *ANISOTROPY
Abstract

We present a ferromagnetic resonance (FMR) study of the effect of helium ion irradiation on the magnetic anisotropy, the linewidth and the Gilbert damping of a Co/Ni multilayer coupled to Co/Pd bilayers. The perpendicular magnetic anisotropy decreases linearly with He ion fluence, leading to a transition to in-plane magnetization at a critical fluence of 5×1014 ions/cm2. We find that the damping is nearly independent of fluence but the FMR linewidth at fixed frequency has a maximum near the critical fluence, indicating that the inhomogeneous broadening of the FMR line is a nonmonotonic function of the He ion fluence. Based on an analysis of the angular dependence of the FMR linewidth, the inhomogeneous broadening is associated with spatial variations in the magnitude of the perpendicular magnetic anisotropy. These results demonstrate that ion irradiation may be used to systematically modify the magnetic anisotropy and distribution of magnetic anisotropy parameters of Co/Pd/Co/Ni multilayers for applications and basic physics studies. [ABSTRACT FROM AUTHOR]

Published
2011
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14. Ferromagnetic resonance study of polycrystalline Fe1-xVx alloy thin films.

Author

Beaujour, J.-M. L., Kent, A. D., Abraham, D. W., and Sun, J. Z.

Abstract

Ferromagnetic resonance has been used to study the magnetic properties and magnetization dynamics of polycrystalline Fe1-xVx alloy films with 0<=x<0.7. Films were produced by cosputtering from separate Fe and V targets, leading to a composition gradient across a Si substrate. Ferromagnetic resonance studies were conducted at room temperature with a broadband coplanar waveguide at frequencies up to 50 GHz using the flip-chip method. The effective demagnetization field 4πMeff and the Gilbert damping parameter α have been determined as a function of V concentration. The results are compared to those of epitaxial FeV films. [ABSTRACT FROM AUTHOR]

Published
2008
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15. Modeling the magnetic properties of DyFe[sub 2]/YFe[sub 2] superlattices.

Author

Bowden, G. J., Beaujour, J.-M. L., Zhukov, A. A., Rainford, B. D., de Groot, P. A. J., Ward, R. C. C., and Wells, M. R.

Subjects
*SUPERLATTICES, *MAGNETIC properties
Abstract

The Stoner -- Wohlfarth model has proved reasonably successful in describing the coercivities of antiferromagnetically coupled DyFe[SUB2]/Yfe[SUB2] hard/soft superlattices in the absence of magnetic exchange springs. In particular, the coercivity rises sharply as the net magnetic moment of the superlattice approaches zero. However the situation becomes more complicated as the thickness of the Yfe[SUB2] layers is increased. Two distinct ''instability fields'' can be identified: the bending field B[SUBB], signifying the onset of a magnetic exchange spring, and the irreversible switching field B[SUBIS] associated with magnetic reversal. We have developed a computational model to address this problem. In particular, it is shown that the two instability fields in question are characterized by vanishing eigenvalues in the matrix formed by the double energy derivatives λ[SUP2]E/λθ[SUBi]λθ[SUBj], where E is the total energy and θ[SUBi] the angle of each individual monolayer. It is shown that the model provides)a very good description of the M - B[SUBapp] loops of DyFe[SUB2]/Yfe[SUB2] multilayer films. In particular, the coercivity of a nearly magnetically compensated multilayer (75 ÅDyFe[SUB2]/150 ÅYfe[SUB2]) is much reduced below the prediction of the Stoner -- Wolhfarth model, in accord with experiment. [ABSTRACT FROM AUTHOR]

Published
2003
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16. Spin configurations and negative coercivity in epitaxially grown DyFe[sub 2]/YFe[sub 2] superlattices.

Author

Gordeev, S. N., Beaujour, J.-M. L., Bowden, G. J., de Groot, P. A. J., Rainford, B. D., Ward, R. C. C., and Wells, M. R.

Subjects
*MULTILAYERED thin films, *MOLECULAR beam epitaxy, *CRYSTAL growth, *MAGNETIC properties
Abstract

Molecular beam epitaxial methods have been used to grow single crystal Laves phase DyFe[sub 2]/YFe[sub 2] superlattice samples with a (110) growth direction. In particular, the magnetic properties of the YFe[sub 2] dominated multilayer samples [wDyFe[sub 2]/4wYFe[sub 2]]xN with w=20, 30, 40, 45, 50, and 55 Å are presented and discussed. In principle, the multilayer films should possess similar magnetic properties because they are all nominally Dy[sub 0.2]Y[sub 0.8]Fe[sub 2]. However, it is shown that their magnetic properties depend strongly on the thickness of the DyFe[sub 2] layers w. Those films with w>=45 Å possess negative coercivities, while those with w≤40 Å are positive. It is argued that this behavior can be understood in terms of a strong increase of the intrinsic coercivity of the DyFe[sub 2]/YFe[sub 2] superlattice, taken as a whole, as w is reduced. For w≤40 Å almost none of the DyFe[sub 2] moments can be flipped over in the availa! ble field range (12 T). © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2001
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18. Magnetic reversal in a YFe2 dominated DyFe2/YFe2 multilayer film

Author

Stenning, G. B. G., primary, Bowden, G. J., additional, Gregory, S. A., additional, Beaujour, J.-M. L., additional, de Groot, P. A. J., additional, van der Laan, G., additional, Shelford, L. R., additional, Bencok, P., additional, Steadman, P., additional, Dobrynin, A. N., additional, and Hesjedal, T., additional

Published
2012
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35. Ferromagnetic resonance study of sputtered Co|Ni multilayers.

Author

Beaujour, J.-M. L., Chen, W., Krycka, K., Kao, C.-C., Sun, J. Z., and Kent, A. D.

Subjects
*FERROMAGNETISM, *ANTIFERROMAGNETISM, *FERROMAGNETIC resonance, *SPIN waves, *ANISOTROPY, *CRYSTALLOGRAPHY
Abstract

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. [ABSTRACT FROM AUTHOR]

Published
2007
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36. Room temperature coercivities of Tb[sub 1-x]Dy[sub x]Fe[sub 2] (110) molecular beam epitaxy grown films.

Author

Beaujour, J-M. L., Bowden, G. J., Zhukov, A. A., Rainford, B. D., de Groot, P. A. J., Ward, R. C. C., and Wells, M. R.

Subjects
*EPITAXY, *FILMSTRIPS, *MAGNETOSTRICTION, *CRYSTAL growth, *CRYSTALLIZATION, *TWINNING (Crystallography)
Abstract

It has been known for many years that the rare-earth intermetallic compound terfenol (Tb[SUB0.3]Dy[SUB0.7])Fe[SUB2] is characterized by "giant magnetostriction," which has found practical applications. In this article we report the magnetic properties of a series of molecular beam epitaxially (MBE) grown (110) Tb[SUB1-x]Dy[SUBx]Fe[SUB2] alloy films, on sapphire substrates. All the measurements were performed at room temperature with the field applied along an in-plane [&1sline;10] axis. However, unlike bulk Tb[SUB1-x]Dy[SUBx]Fe[SUB2], it is shown that the coercivity does not fall to zero at the magic ratio of x ∼ 0.7. Instead, the coercivities fall almost on a straight line, with the maximum coercivity for pure TbFe[SUB2] (0.64 T) and the smallest for DyFe[SUB2] (0.22 T). The difference between the bulk and MBE films is attributed to the presence of a magnetoelastic strain term, induced during crystal growth by the sapphire substrate. In practice, the measured coercivities can be described, approximately, with a modified Stoner--Wohlfarth model. [ABSTRACT FROM AUTHOR]

Published
2003
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37. Negative coercivity in epitaxially grown (110) DyFe[sub 2]/YFe[sub 2] superlattices.

Author

Beaujour, J-M. L., Gordeev, S. N., Bowden, G. J., de Groot, P. A. J., Rainford, B. D., Ward, R. C. C., and Wells, M. R.

Subjects
*SUPERLATTICES, *LAVES phases (Metallurgy), *MOLECULAR beam epitaxy
Abstract

Molecular beam epitaxial methods have been used to grow single crystal Laves phase DyFe[sub 2]/YFe[sub 2] superlattice samples with a (110) growth direction. Detailed magnetization curves have been obtained for YFe[sub 2] dominated multilayer samples [wDyFe[sub 2]/4wYFe[sub 2]]x16 with w=45, 50, and 55 Å. In particular, it is shown that the formation of magnetic exchange springs in the magnetically soft YFe[sub 2] layers, can be used to engineer multilayer samples with a negative coercivity. Further, by using asymmetric field cycling procedures, we have investigated the irreversible parts of the M-B loop, associated with the switching of the DyFe[sub 2] multilayers. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2001
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40. Engineering coercivity in epitaxially grown (110) films of DyFe[sub 2]-YFe[sub 2] superlattices.

Author

Sawicki, M., Bowden, G. J., Bowden, G.J., de Groot, P. A. J., de Groot, P.A.J., Rainford, B. D., Rainford, B.D., Beaujour, J. M. L., Beaujour, J.M.L., Ward, R. C. C., Ward, R.C.C., Wells, M. R., and Wells, M.R.

Subjects
SUPERLATTICES, MOLECULAR beam epitaxy
Abstract

Molecular beam epitaxial methods have been used to grow single crystal Laves phase DyFe[sub 2]-YFe[sub 2] superlattice samples with a (110) growth direction. It is shown that it is possible, in principle, to engineer a desired coercivity between the limits K[sub DyFe[sub 2]]≤K≤∞. This can be achieved by adjusting the relative thickness of the individual DyFe[sub 2] and YFe[sub 2] layers, in multilayer films This novel feature is illustrated, using the superlattice films [x Å DyFe[sub 2]/(100-x) Å YFe[sub 2]]x40, with x=80, 60, 50, and 45. It is found that the measured coercivity is in semiquantitative agreement with a simple theoretical expression, for the nucleation fields in both bilayer and multilayer compounds. However, in practice, exchange spring penetration into the DyFe[sub 2] layers can set a limit to the maximum coercivity that can be achieved. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2000
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