Nanogratings in fused silica: Formation, control, and applications

Richter, Stefanie; Heinrich, Matthias; Döring, Sven; Tünnermann, Andreas; Nolte, Stefan; Peschel, Ulf

doi:10.2351/1.4718561

Cited by 109 publications

(86 citation statements)

References 50 publications

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“…3 represent the self-organized nanogratings found along the particular laser track. The periodicity of the self-organized patterns decreases as the number of pulses increases in-line with the observation by Shimotsuma et al [4] and subsequently by Richter et al [15] and Liang et al [7]. In addition to the reduced periodicity, the uniformity of the periodicity has also changed; higher energy deposition causes the lamellae to be discontinuous laterally across the modification zone.…”

Section: Self-organized Patternssupporting

confidence: 73%

“…If we assume the porosity found in nanogratings is homogeneous (which seems to be the case based on the observations from J. Canning et al [9], later confirmed by Richter et al [15]), considering the shape of the laser affected zones, we do expect high stress concentration to form near pronounced discontinuities, i.e. for instance at the tip of lamellae.…”

Section: Transition To Chaotic From Self-organizationmentioning

confidence: 96%

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Transition and self-healing process between chaotic and self-organized patterns observed during femtosecond laser writing

Groothoff¹,

Hongler²,

Kazansky³

et al. 2015

Opt. Express

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Abstract:We report evidence of intermittent behavior between chaotic and self-organized patterns while writing lines with a femtosecond lasers on the surface of a fused silica substrate. The patterns are accompanied by resolidified sub-microspheres and non-aligned grating lamellae. We observe that such dynamic behavior exhibits a striking similarity with the fluctuating content of a queuing system which alternate between random busy and idle periods.

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Section: Self-organized Patternssupporting

confidence: 73%

Section: Transition To Chaotic From Self-organizationmentioning

confidence: 96%

Transition and self-healing process between chaotic and self-organized patterns observed during femtosecond laser writing

Groothoff¹,

Hongler²,

Kazansky³

et al. 2015

Opt. Express

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show abstract

“…However, although great effort has been made on investigating the mechanism behind this phenomenon, a clear picture is still lacking until now [75,84]. Recently, it has been found that nanogratings can also be formed in a porous glass immersed in water by irradiation with femtosecond laser pulses of carefully selected pulse energies [37].…”

Section: Influence Of Ionization Property Of Immersion Liquidmentioning

confidence: 99%

Femtosecond Laser 3D Fabrication in Porous Glass for Micro- and Nanofluidic Applications

Liao

Cheng

2014

Micromachines

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Abstract:The creation of complex three-dimensional (3D) fluidic systems composed of hollow micro-and nanostructures embedded in transparent substrates has attracted significant attention from both scientific and applied research communities. However, it is by now still a formidable challenge to build 3D micro-and nanofluidic structures with arbitrary configurations using conventional planar lithographic fabrication methods. As a direct and maskless fabrication technique, femtosecond laser micromachining provides a straightforward approach for high-precision, spatially-selective, modification inside transparent materials through nonlinear optical absorption. In this paper, we demonstrate rapid fabrication of high-aspect-ratio micro-and/or nanofluidic structures with various 3D configurations by femtosecond laser direct writing in porous glass substrates. Based on this approach, we demonstrate several functional micro-and nanofluidic devices including a 3D passive microfluidic mixer, a capillary electrophoresis (CE) analysis chip, and an integrated micro-nanofluidic system for single DNA analysis. The possible mechanisms behind the formation of high-aspect-ratio micro-and nanochannels are also discussed. This technology offers new opportunities to develop novel 3D micro-nanofluidic systems for a variety of lab-on-a-chip applications.

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“…1(a)). By tuning the laser parameters the structural properties and thus the birefringence can be controlled [3,4]. Consequently, there are numerous potential applications from phase elements controlling the laser polarization [3,4] to devices enabling the generation of optical vortices [5].…”

Section: Introductionmentioning

confidence: 99%

Ultrashort pulse induced nanogratings

Nolte

Zimmermann

Richter

et al. 2013

MATEC Web of Conferences

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When intense femtosecond laser pulses are focused into a glass substrate, selforganized periodic nanostructures, so-called nanogratings, are generated in a certain parameter regime. To clarify the ultimate structure of the nanogratings we employed focused ion beam (FIB) milling and small angle X-ray scattering (SAXS). The results considerably show that voids are the primary constituents and their number increases with ongoing exposure to laser pulses. Potential applications will be highlighted.

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Nanogratings in fused silica: Formation, control, and applications

Cited by 109 publications

References 50 publications

Transition and self-healing process between chaotic and self-organized patterns observed during femtosecond laser writing

Transition and self-healing process between chaotic and self-organized patterns observed during femtosecond laser writing

Femtosecond Laser 3D Fabrication in Porous Glass for Micro- and Nanofluidic Applications

Ultrashort pulse induced nanogratings

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