Roelene Botha scite author profile

Single layer antireflection coatings (SLAR) consisting of nanoporous silica (NP SiO 2 ) films are developed by selective chemical etching of atomic layer deposited (ALD) Al 2 O 3 :SiO 2 composite films. The reflective index of the final NP SiO 2 film is finely adjusted from 1.132 to 1.400 at 600 nm wavelength by applying an appropriate ratio in the composite. To meet the requirements of the SLAR coatings from the deep UV (DUV) to the near IR (NIR) spectral range, the film thickness is controlled with nanometer precision by the ALD process. The SLAR are simultaneously applied on both sides of flat or highly curved substrates. Transmittance values above 99.4% are achieved even at a wavelength of 193 nm on fused silica substrates. Various characterization methods demonstrate the advantages of these SLAR with regard to impurities, optical losses, laser induced damage threshold (LIDT) properties, and surface super-hydrophilicity. The absorption losses at 193 nm wavelength as determined by laser induced deflection measurements amount to approximately 200 ppm, and to approximately 2 ppm at a wavelength of 1064 nm, while the scattering losses are around 30 ppm at 532 nm wavelength for quarter-wave layers. The LIDT values at 1064 nm are in the range of 93 J cm À2 being close to the values measured on the uncoated substrate.

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Controlling the size distribution of embedded Au nanoparticles using ion irradiation

Ramjauny

Rizza

Perruchas

et al. 2010

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Samples composted of chemically synthesized Au nanoparticles (NPs) (16.0±2.0 nm) embedded within a planar silica film are used as model system to investigate the evolution of a second phase under irradiation when the temperature and the ion stopping power are changed. Samples are irradiated with 4 MeV Au2+ ions and 4 MeV Br2+ ions for temperature ranging from 30 °C up to 800 °C and for fluences up to 8×1016 cm−2. We show that at room temperature the complete dissolution of the NPs leads to the formation of smaller precipitates with a narrower size distribution, i.e., 2.0±0.3 nm. However, when the temperature is increased and/or the nuclear stopping power is decreased, a reduction in the dissolution rate was observed. This leads to the formation of a bimodal size distribution. Finally, the evolution of the density of the precipitates with the temperature is discussed in term of the thermal stability of the irradiation-induced defects within the silica matrix.

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Crystallization behavior of ion beam sputtered HfO2 thin films and its effect on the laser-induced damage threshold

Balogh-Michels

Stevanovic

Borzì³

et al. 2021

J. Eur. Opt. Soc.-Rapid Publ.

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In this work, we present our results about the thermal crystallization of ion beam sputtered hafnia on 0001 SiO2 substrates and its effect on the laser-induced damage threshold (LIDT). The crystallization process was studied using in-situ X-ray diffractometry. We determined an activation energy for crystallization of 2.6 ± 0.5 eV. It was found that the growth of the crystallites follows a two-dimensional growth mode. This, in combination with the high activation energy, leads to an apparent layer thickness-dependent crystallization temperature. LIDT measurements @355 nm on thermally treated 3 quarter-wave thick hafnia layers show a decrement of the 0% LIDT for 1 h @773 K treatment. Thermal treatment for 5 h leads to a significant increment of the LIDT values.

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Roelene Botha

On the Properties of Nanoporous SiO₂ Films for Single Layer Antireflection Coating

Controlling the size distribution of embedded Au nanoparticles using ion irradiation

Crystallization behavior of ion beam sputtered HfO2 thin films and its effect on the laser-induced damage threshold

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Roelene Botha

On the Properties of Nanoporous SiO2 Films for Single Layer Antireflection Coating

Controlling the size distribution of embedded Au nanoparticles using ion irradiation

Crystallization behavior of ion beam sputtered HfO2 thin films and its effect on the laser-induced damage threshold

Contact Info

Product

Resources

About

On the Properties of Nanoporous SiO₂ Films for Single Layer Antireflection Coating