Fabrication of amorphous Al<sub>2</sub>O<sub>3</sub> optical film with various refractive index and low surface roughness

Lan, Yunping; Zou, Yonggang; Ma, Xiaoliang; Li, X.; Shi, Linlin; Zhang, Jiabin

doi:10.1088/2053-1591/abb0af

Cited by 14 publications

(4 citation statements)

References 30 publications

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“…Результаты расчетов показали, что показатель преломления n = 1,6-1,7 в интервале длин волн 400-1000 нм, а d = 300 нм. Полученное значение n оказалось близким к показателю преломления аморфных пленок оксида алюминия (n = 1,63) в работе [14]. Погрешность определения n и d определяли по сдвигу расчетной кривой пропускания относительно измеренной и составляла для показателя преломления около 0,02 и для d≤10 нм.…”

Section: экспериментальные результаты и их обсуждениеunclassified

Structure and optical properties of aluminum oxide films (Al2O3) after heating in water vapor and vacuum

Gorodetsky,

Markin,

Bukhovets

et al. 2024

cpmrm

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Aluminum oxide films are used as low refractive index layers in multilayer dielectric mirrors, which are expected to be used in ITER plasma diagnostic optical systems. In such mirrors, a film with a low refractive index is the outer layer. In addition to the normal operating modes of ITER, a number of emergency modes are assumed, one of which is the destruction of the water cooling system of the first wall, divertor or blanket. In this case, the vacuum chamber is filled with steam, the parameters of which depend on the location of the destruction and on the stage of operation of the reactor at which the accident occurs. The maximum steam parameters are set by a special system that limits the pressure to 150 kPa, and the maximum temperature of 250°C can be the case when an accident occurs during vacuum training of the chamber. The work examines the interaction of steam with amorphous films of aluminum oxide deposited on glass of the K-9 grades by reactive magnetron sputtering. It has been shown that exposure of a film 300 nm thick at a temperature of 250°C and a steam pressure of 150 kPa for 2 hours is accompanied by intense hydroxylation of the film and the transformation of the entire oxide film into hydroxides. This leads to severe degradation of light transmission, which may cause a change in the optical properties of the dielectric mirror. As a next step, similar steam exposures are planned of the mirrors in which with a low refractive index layers will alternate with layers of oxides with a high refractive index, such as hafnium, tantalum, and zirconium oxides.

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Section: экспериментальные результаты и их обсуждениеunclassified

Structure and optical properties of aluminum oxide films (Al2O3) after heating in water vapor and vacuum

Gorodetsky,

Markin,

Bukhovets

et al. 2024

cpmrm

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“…The thickness variations observed in the AlO x layer could be attributed to formation of denser films for longer process times and for process conditions with stronger ion bombardment. Film density affects the optical constants of the film which would impact the thickness estimate [46].…”

Section: Ellipsometrymentioning

confidence: 99%

Use of plasma oxidation for conversion of metal salt infiltrated thin polymer films to metal oxide

Conway

Snelgrove

Yadav

et al. 2022

J. Phys. D: Appl. Phys.

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Oxygen plasma treatments for conversion of metal salt infiltrated polymer films to metal oxide films using an asymmetrical capacitively coupled plasma system were investigated. Hydroxylated Poly-2-Vinylpyridine (P2VP-OH) thin films grafted to silicon were exposed to metal salt-solvent solutions which swell the polymer enabling metal ion infiltration. Exposing the resulting film to oxygen plasma resulted in formation of polymer-free metal oxide films. Atomic oxygen and positive ions present in plasma can both influence the process outcome. A design of experiment approach was used to investigate the impact of RF power, gas pressure and process time on plasma composition and the resulting metal oxide films. A combination of Langmuir probe, retarding field energy analyser and optical emission spectroscopy measurements were used to monitor the plasma. The samples surfaces were examined using X-ray photoelectron spectroscopy, ellipsometry, transmission electron microscopy and energy dispersive X-ray analysis. Gas pressure and RF power were found to strongly influence both ion energy, and atomic oxygen to molecular ion ratios [O]/[O2 +] in the plasma which impacted the resulting surface layer. For the plasma conditions investigated conversion to a metal oxide was achieved in minutes. Sputter contamination was found to be significant in some cases.

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“…With the prevalence of amorphous oxide compounds, the main halo of amorphous Fe with a maximum intensity at 2θ∼45° [11,22] should be superimposed by a complex-shaped halo with maxima at 2θ∼23 °(main peak) and 2θ∼63 °(very weak peak) [23][24][25]. For amorphous carbon, the main and weaker peaks are found at 25°and 45°, respectively [19,20,26].…”

Section: Simulationmentioning

confidence: 99%

Analysis of wide diffuse halo formation in the x-ray diffraction spectrum during the reduction of Fe₂O₃ by waste-activated sludge (WAS)

Nava¹,

Morelos²,

González³

et al. 2022

Mater. Res. Express

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A simulation of the diffuse experimental X-ray halo obtained when waste-activated sludge (WAS) was used as the Fe2O3 reducing agent made it possible to explain the large width of the experimental halo and the change in its shape as a result of the change in the amorphous phase content. The halo consists of different sets of amorphous phase convolutions. The synthesized product was a composite consisting of amorphous iron with inclusions of amorphous oxides of aluminum and silicon, amorphous carbon, and amorphous Si, Al, and C alloys on the surface of the Fe particles. The shift in the halo makes it possible to qualitatively estimate the contributions of oxide and carbon components or alloys to the halo of amorphous iron.

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Fabrication of amorphous Al₂O₃ optical film with various refractive index and low surface roughness

Cited by 14 publications

References 30 publications

Structure and optical properties of aluminum oxide films (Al2O3) after heating in water vapor and vacuum

Structure and optical properties of aluminum oxide films (Al2O3) after heating in water vapor and vacuum

Use of plasma oxidation for conversion of metal salt infiltrated thin polymer films to metal oxide

Analysis of wide diffuse halo formation in the x-ray diffraction spectrum during the reduction of Fe₂O₃ by waste-activated sludge (WAS)

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Fabrication of amorphous Al2O3 optical film with various refractive index and low surface roughness

Cited by 14 publications

References 30 publications

Structure and optical properties of aluminum oxide films (Al2O3) after heating in water vapor and vacuum

Structure and optical properties of aluminum oxide films (Al2O3) after heating in water vapor and vacuum

Use of plasma oxidation for conversion of metal salt infiltrated thin polymer films to metal oxide

Analysis of wide diffuse halo formation in the x-ray diffraction spectrum during the reduction of Fe2O3 by waste-activated sludge (WAS)

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Fabrication of amorphous Al₂O₃ optical film with various refractive index and low surface roughness

Analysis of wide diffuse halo formation in the x-ray diffraction spectrum during the reduction of Fe₂O₃ by waste-activated sludge (WAS)