Surface morphology and phase transformations of femtosecond laser-processed sapphire

The morphological and structural modifications induced in sapphire by surface treatment with femtosecond laser radiation were studied. Single-crystal sapphire wafers cut parallel to the (012) planes were treated with 560fs, 1030nm wavelength laser radiation using wide ranges of pulse energy and repe...

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Published inApplied surface science Vol. 288; pp. 313 - 323
Main Authors VILAR, R, SHARMA, S. P, ALMEIDA, A, CANGUEIRO, L. T, OLIVEIRA, V
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier 2014
Subjects
Ablation
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Droplets
Exact sciences and technology
Exfoliation
Lasers
Nanoparticles
Particle physics
Particulate composites
Physics
Sapphire
Femtosecond laser ablation
Phase transformations
Sapphire
Laser ablation technique
Ablation debris
Self-ordered periodic structures
Film growth
Periodic structures
Surface structure
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Abstract The morphological and structural modifications induced in sapphire by surface treatment with femtosecond laser radiation were studied. Single-crystal sapphire wafers cut parallel to the (012) planes were treated with 560fs, 1030nm wavelength laser radiation using wide ranges of pulse energy and repetition rate. Self-ordered periodic structures with an average spatial periodicity of 300nm were observed for fluences slightly higher than the ablation threshold. For higher fluences the interaction was more disruptive and extensive fracture, exfoliation, and ejection of ablation debris occurred. Four types of particles were found in the ablation debris: (a) spherical nanoparticles about 50nm in diameter; (b) composite particles between 150 and 400nm in size; (c) rounded resolidified particles about 100-500nm in size; and (d) angular particles presenting a lamellar structure and deformation twins. The study of those particles by selected area electron diffraction showed that the spherical nanoparticles and the composite particles are amorphous, while the resolidified droplets and the angular particles, present a crystalline alpha -alumina structure, the same of the original material. Taking into consideration the existing ablation theories, it is proposed that the spherical nanoparticles are directly emitted from the surface in the ablation plume, while resolidified droplets are emitted as a result of the ablation process, in the liquid phase, in the low intensity regime, and by exfoliation, in the high intensity regime. Nanoparticle clusters are formed by nanoparticle coalescence in the cooling ablation plume.
AbstractList The morphological and structural modifications induced in sapphire by surface treatment with femtosecond laser radiation were studied. Single-crystal sapphire wafers cut parallel to the (012) planes were treated with 560fs, 1030nm wavelength laser radiation using wide ranges of pulse energy and repetition rate. Self-ordered periodic structures with an average spatial periodicity of 300nm were observed for fluences slightly higher than the ablation threshold. For higher fluences the interaction was more disruptive and extensive fracture, exfoliation, and ejection of ablation debris occurred. Four types of particles were found in the ablation debris: (a) spherical nanoparticles about 50nm in diameter; (b) composite particles between 150 and 400nm in size; (c) rounded resolidified particles about 100-500nm in size; and (d) angular particles presenting a lamellar structure and deformation twins. The study of those particles by selected area electron diffraction showed that the spherical nanoparticles and the composite particles are amorphous, while the resolidified droplets and the angular particles, present a crystalline alpha -alumina structure, the same of the original material. Taking into consideration the existing ablation theories, it is proposed that the spherical nanoparticles are directly emitted from the surface in the ablation plume, while resolidified droplets are emitted as a result of the ablation process, in the liquid phase, in the low intensity regime, and by exfoliation, in the high intensity regime. Nanoparticle clusters are formed by nanoparticle coalescence in the cooling ablation plume.
Author VILAR, R
SHARMA, S. P
CANGUEIRO, L. T
ALMEIDA, A
OLIVEIRA, V
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Keywords Femtosecond laser ablation
Phase transformations
Sapphire
Laser ablation technique
Ablation debris
Self-ordered periodic structures
Film growth
Periodic structures
Surface structure
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Snippet The morphological and structural modifications induced in sapphire by surface treatment with femtosecond laser radiation were studied. Single-crystal sapphire...
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SubjectTerms Ablation
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Droplets
Exact sciences and technology
Exfoliation
Lasers
Nanoparticles
Particle physics
Particulate composites
Physics
Sapphire
Title Surface morphology and phase transformations of femtosecond laser-processed sapphire
URI https://search.proquest.com/docview/1880004882
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