Crystal structure and magnetic properties of rf-sputtered Cu–Zn ferrite thin films

Sultan, M. T.; Singh, Ramesh

doi:10.1063/1.3357316

Cited by 12 publications

(3 citation statements)

References 13 publications

(13 reference statements)

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“…Similar behavior is observed for CZF thin films [12]. The increase in saturation temperature with increase in CZF thickness could be due to the interlayer coupling.…”

Section: (Nm)supporting

confidence: 66%

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FMR Studies of [SnO2/Cu-Zn Ferrite] Multilayers

Singh¹,

Saipriya²

2013

Ferromagnetic Resonance - Theory and Applications

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“…Similar behavior is observed for CZF thin films [12]. The increase in saturation temperature with increase in CZF thickness could be due to the interlayer coupling.…”

Section: (Nm)supporting

confidence: 66%

“…Oxide materials are more stable and their ML can form magnetic structures which do not exist in bulk form. There are reports on ML of ferrites used along with NiO [5,6], MgO [7] , CoO [8] and SnO2 [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

FMR Studies of [SnO2/Cu-Zn Ferrite] Multilayers

Singh¹,

Saipriya²

2013

Ferromagnetic Resonance - Theory and Applications

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“…The strong angular dependence of the FMR spectra reveals the presence of a uniaxial anisotropy in the films. [7][8][9][10] In conclusion, hydrothermal treatment is appropriate for CZF films to obtain uniform and homogeneous morphology and to tune the ferromagnetic interactions as they are helpful in several technological applications at nano scale. …”

Section: Resultsmentioning

confidence: 99%

Effect of hydrothermal heat treatment on magnetic properties of copper zinc ferrite rf sputtered films

2016

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The hydrothermal treatment to the nano-structured films can overcome the destruction of the films. The Cu-Zn Ferrite films were fabricated by RF-sputtering on quartz substrates. Subsequently, the as deposited films were heat treated using hydrothermal process. The X-ray diffraction pattern of the as-deposited and hydrothermal treated films indicate nano-crystalline cubic spinel structure. The amorphous nature of the films is removed after hydrothermal treatment with decreased crystallite size. The field emission scanning electron micrographs showed merged columnar growth for as deposited films, which changes to well define columns after hydrothermal heating. The homogeneous cluster distribution is observed in surface view of the hydrothermal treated films. Hydrothermal treated films show merging of in-plane and out of plane magnetization plots (M(H)) whereas the M(H) plots of as deposited films show angular dependence. The strong angular dependence is observed in the FMR spectra due to the presence of a uniaxial anisotropy in the films. The ferromagnetic interactions decrease in hydrothermal heated films due to the reduced shape anisotropy and crystallite size.

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