Journal ArticleDOI
Femtosecond laser induced nanostructure formation: self-organization control parameters
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In this article, the s-component of the incident field, not attenuated by the projection, determines length and orientation of the ordered ripples, resulting in curved structures bending from polarization-controlled to defect-controlled orientation.Abstract:
In self-organized nanostructure formation upon femtosecond laser ablation, the laser polarization is an important control parameter. Experiments on fluoride crystals, using circular and elliptical polarization, study this influence in more detail. For circular polarization, spherical nanoparticles of about 100 nm diameter are formed. With increasing ellipticity, longer and longer ordered chains and linear structures are generated, oriented perpendicular to the long axis of the polarization ellipse. A similar effect occurs when, for circular polarization, the angle of incidence is varied from normal to 45°: the s-component of the incident field, not attenuated by the projection, determines length and orientation of the ordered ripples. However, surface defects like scratches exert an even stronger influence on the ripples orientation than the polarization, resulting in curved structures bending from polarization-controlled to defect-controlled orientation. Since the structure formation takes place only long after the end of the laser pulse, a certain electrical field memorizer is required to account for this polarization dependence. A promising approach assumes directional atomic surface diffusion anisotropies, arising, e.g. from plasmon-coupled metal–colloid arrays.read more
Citations
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Journal ArticleDOI
Ultrafast laser processing of materials: a review
TL;DR: In this paper, an overview of the different processes that can result from focusing an ultrafast laser light in the femtosecond-nanosecond time regime on a host of materials, e.g., metals, semiconductors, and insulators.
Journal ArticleDOI
Surface and bulk structuring of materials by ripples with long and short laser pulses: Recent advances
TL;DR: In this paper, a critical review of ripple formation mechanisms is presented, discussed, and formation conjectures are presented, and it is shown that formation of plasma at subcritical or critical densities on the surface and in the bulk specific to the high-intensity ultra-short laser pulses has to be considered to account for the experimental observations.
Journal ArticleDOI
Bio-Inspired Functional Surfaces Based on Laser-Induced Periodic Surface Structures
TL;DR: This review paper describes the physical background of LIPSS generation as well as the physical principles of surface related phenomena like wettability, reflectivity, and friction, and gives a comprehensive overview of recent achievements related to the utilization of LIpsS to generate superhydrophobic, anti-reflective, colored, and drag resistant surfaces.
Journal ArticleDOI
Formation of laser-induced periodic surface structures (LIPSS) on tool steel by multiple picosecond laser pulses of different polarizations
TL;DR: In this article, laser-induced periodic surface structures (LIPSS) are produced on cold work tool steel by irradiation with a low number of picosecond laser pulses.
Journal ArticleDOI
The role of asymmetric excitation in self-organized nanostructure formation upon femtosecond laser ablation
TL;DR: In this paper, the authors present a theoretical model indicating that a directional asymmetry in the pattern can result from a spatial asymmetry of the initial excitation, induced e.g. by a corresponding distribution of excited-electron kinetic energies.
References
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Journal ArticleDOI
Laser-induced periodic surface structure. I. Theory
TL;DR: In this paper, a theory for laser-induced periodic surface structure was developed by associating each Fourier component of induced structure with the corresponding Fourier components of inhomogeneous energy deposition just beneath the surface.
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Laser-induced periodic surface structure. II. Experiments on Ge, Si, Al, and brass
TL;DR: In this article, the Fourier transform of the damage structure was extracted from the Fraunhofer diffraction pattern produced by reflecting a cw laser beam from the surface, and the results of a detailed investigation into the periodic damage structure that can be produced on nominally smooth surfaces of solids when they are irradiated with a single beam of intense laser radiation were reported.
Journal ArticleDOI
Optically produced arrays of planar nanostructures inside fused silica.
V. R. Bhardwaj,Eli S. Simova,P. P. Rajeev,Cyril Hnatovsky,R. S. Taylor,David M. Rayner,Paul B. Corkum +6 more
TL;DR: How local field enhancement influences dielectric ionization is discussed, how this leads to nanoplane growth, why the planes are arrayed, and how long-range order is maintained are described.
Journal ArticleDOI
A mechanism of surface micro-roughening by ion bombardment
TL;DR: The spatial distribution of sputter-etch effects is analyzed theoretically under the assumption of random slowing-down of the bombarding ions as discussed by the authors, and it is concluded that a microscopically flat surface is unstable under high-dose ion bombardment unless atom migration acts as a dominating smoothing effect.
Journal ArticleDOI
Laser-Induced Periodic Surface Structure on Solids: A Universal Phenomenon
TL;DR: In this paper, the authors used circularly polarized light for the first time to generate periodic structures on solid surfaces and found that these show an interesting dependence on the sense of rotation, which occurs for a broad range of wavelengths and different laser polarization states in both polariton active and -inactive media.