2017
DOI: 10.1063/1.5001716
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Tuning high frequency magnetic properties and damping of FeGa, FeGaN and FeGaB thin films

Abstract: A series of FeGa, FeGaN and FeGaB films with varied oblique angles were deposited by sputtering method on silicon substrates, respectively. The microstructure, soft magnetism, microwave properties, and damping factor for the films were investigated. The FeGa films showed a poor high frequency magnetic property due to the large stress itself. The grain size of FeGa films was reduced by the additional N element, while the structure of FeGa films was changed from the polycrystalline to amorphous phase by the invo… Show more

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Cited by 20 publications
(7 citation statements)
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“…In figure 5(a), no obvious resonant absorption peak can be observed for the 110 nm-thick film, and the corresponding field-dependent spectra (figure 6(a)) also do not reveal an obvious increasing frequency signal with the increases of H app . This 'flat' magnetic spectrum is attributed to the weak in-plane anisotropy and the large H c of this film (see figure 4(a)), which suppress the dynamic permeability [76,83]. In this work, the H c of 110 nm FeCoHf film is ∼14 mT, and there is also no obvious resonant peak.…”
Section: Magnetic Domain Mode-dominated Resonancementioning
confidence: 54%
“…In figure 5(a), no obvious resonant absorption peak can be observed for the 110 nm-thick film, and the corresponding field-dependent spectra (figure 6(a)) also do not reveal an obvious increasing frequency signal with the increases of H app . This 'flat' magnetic spectrum is attributed to the weak in-plane anisotropy and the large H c of this film (see figure 4(a)), which suppress the dynamic permeability [76,83]. In this work, the H c of 110 nm FeCoHf film is ∼14 mT, and there is also no obvious resonant peak.…”
Section: Magnetic Domain Mode-dominated Resonancementioning
confidence: 54%
“…However, the magnetic anisotropy becomes obvious with the increase in the α angle. This indicates that in-plane anisotropy can be induced by oblique sputtering for the internal stress in FeGa films [9,31]. Meanwhile, in Figure 4b, FeGaNi films show narrower hysteresis loops and relatively stronger in-plane magnetic anisotropy compared with FeGa, which means that doping Ni can improve the soft magnetic property of FeGa films.…”
Section: Resultsmentioning
confidence: 92%
“…It can be clearly seen that all the films display a strong diffraction peak at 44.6 • corresponding to the bcc (110) diffraction peak and two weak peaks at 65 • and 82 • corresponding to the bcc (200) and (211) diffraction peaks for FeGa or FeGaNi films, illustrating a common polycrystalline structure. The strength of the peaks indicates that the growth direction is a slight preferred orientation along (110) [9,32,33]. The position and shape of the peaks have no clear change.…”
Section: Resultsmentioning
confidence: 98%
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“…Additionally, weak anisotropy has been induced during film growth by sputtering using low argon pressure (∼3µbar) [11], or alternatively by raising the substrate temperature to several hundred de-40 grees Celsius during deposition [12,13]. Doping Fe-Ga films with B, and N has also been found to induce a large stress which affects the magnetic and high frequency response of the films [14].…”
Section: Introductionmentioning
confidence: 99%