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論文

Magnetic layer thickness influence on magnetoelastic properties anisotropy in Co$$_{2}$$Fe$$_{0.4}$$Mn$$_{0.6}$$Si heusler alloy thin films

Nabialek, A.*; Chumak, O.*; 関 剛斎*; 高梨 弘毅; Baczewski, L. T.*; Szymczak, H.*

IEEE Transactions on Magnetics, 59(11), p.2501405_1 - 2501405_5, 2023/11

https://doi.org/10.1109/TMAG.2023.3287324
 被引用回数:2 パーセンタイル:17.75(Engineering, Electrical & Electronic)

The anisotropic magnetoelastic (ME) properties of epitaxial Co$$_{2}$$Fe$$_{0.4}$$Mn$$_{0.6}$$Si(CFMS) Heusler alloy thin films with thicknesses ranging from 8 to 100 nm were investigated using the strain-modulated ferromagnetic resonance (SMFMR) technique. The calculation of the first cubic magnetocrystalline (MC) constant ${it K}$ $$_{1}$$ and the two cubic ME constants ${it b}$ $$_{1}$$ and ${it b}$ $$_{2}$$ was carried out assuming the cubic symmetry of the magnetic layer. A significant negative perpendicular MC anisotropy, of the order of 10$$^{5}$$ J/m$$^{3}$$, was also observed. The investigated parameters were found to be dependent on the thickness of the magnetic layer. The thinnest magnetic layers showed the strongest cubic MC anisotropy and the weakest anisotropy of ME properties. These findings highlight the importance of considering the magnetic layer thickness when evaluating the anisotropy in the ME properties of Heusler alloy thin films.

論文

Influence of the strain effect on magnetocrystalline anisotropy in Co$$_{2}$$Fe$$_{0.4}$$Mn$$_{0.6}$$Si Heusler alloys

Nabialek, A.*; Chumak, O. M.*; Aleshkevych, P.*; Domagala, J. Z.*; Pacewicz, A.*; Salski, B.*; Krupka, J.*; 関 剛斎*; 高梨 弘毅; Baczewski, L. T.*; et al.

Scientific Reports (Internet), 13, p.17016_1 - 17016_9, 2023/10

https://doi.org/10.1038/s41598-023-43979-x
 被引用回数:8 パーセンタイル:59.01(Multidisciplinary Sciences)

The perpendicular magnetocrystalline anisotropy, magnetoelastic properties as well as the Gilbert damping factor in Co$$_{2}$$Fe$$_{0.4}$$Mn$$_{0.6}$$Si thin films were found to depend on a magnetic layer thickness, and they can be also tuned by the application of additional Ag buffer layer. The tetragonal distortion of a magnetic layer was found to increase with decreasing thickness, and after the application of an additional Ag buffer layer, the character of this distortion was changed from tensile to compressive in the plane of a film. A correlation between the tetragonal distortion and perpendicular magnetocrystalline anisotropy was found. However, the magnitude of the observed tetragonal distortion for most samples seems to be too small to explain alone the experimentally found large magnitude of the perpendicular magnetocrystalline anisotropy. For these samples, other mechanisms including both surface and volume effects must be taken into account.

論文

Recoil-$$alpha$$-fission and recoil-$$alpha$$-$$alpha$$-fission events observed in the reaction $$^{48}$$Ca + $$^{243}$$Am

Forsberg, U.*; Rudolph, D.*; Andersson, L.-L.*; Di Nitto, A.*; D$"u$llmann, Ch. E.*; Fahlander, C.*; Gates, J. M.*; Golubev, P.*; Gregorich, K. E.*; Gross, C. J.*; et al.

Nuclear Physics A, 953, p.117 - 138, 2016/09

https://doi.org/10.1016/j.nuclphysa.2016.04.025
 被引用回数:59 パーセンタイル:94.98(Physics, Nuclear)

$$^{48}$$Ca + $$^{243}$$Am反応による115番元素合成実験で観測された$$alpha$$崩壊連鎖について、最近我々が報告したドイツGSIで測定したデータと過去に報告されたロシアDubna及び米国LBNLで測定されたデータのすべてを使い、その起源を調査した。それらのデータの中に、反跳核-$$alpha$$-($$alpha$$)-核分裂タイプの短い崩壊連鎖が14事象観測されており、そのうちのいくつかは中性子が2個放出されてできる$$^{289}$$Mc起源であるとこれまで解釈されてきた。一方、今回我々は、これらの短い崩壊連鎖のほとんどが、中性子が3個放出されてできる$$^{288}$$Mc起源であり、崩壊連鎖の途中でEC崩壊して核分裂したものであろうと再同定した。

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