H.‐J. Fuchs scite author profile

We report on the generation of linearly chirped parabolic pulses with 17-W average power at 75 MHz repetition rate and diffraction-limited beam quality in a large-mode-area ytterbium-doped fiber amplifier. Highly efficient transmission gratings in fused silica are applied to recompress these pulses down to 80-fs with an efficiency of 60%, resulting in a peak power of 1.7 MW. Power scaling limitations given by the amplifier bandwidth are discussed.

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Highly efficient transmission gratings in fused silica for chirped-pulse amplification systems

Clausnitzer¹,

Limpert²,

Zöllner³

et al. 2003

Appl. Opt.

132

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We report on highly efficient transmission gratings in fused silica with a grating period of 800 nm generated by electron-beam lithography. At a wavelength of 1060 nm, 95% diffraction efficiency is achieved under Littrow conditions. The damage threshold, extremely enhanced compared with conventional gold-coated diffraction gratings, makes these gratings the key elements in high average power (>100 W) femtosecond fiber chirped-pulse amplification systems.

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Diffractionless propagation of light in a low-index photonic-crystal film

Iliew

Etrich

Peschel

et al. 2004

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We experimentally demonstrate diffractionless propagation of light over 12 diffraction lengths in a two-dimensional photonic crystal film made of silicon nitride (SiNx). We show that self-guided beams may propagate for transverse electric (TE) and transverse magnetic (TM) polarized light but at slightly different frequencies. Three-dimensional calculations are used to optimize the structure for low loss and narrow beam operation in this low-index photonic crystals. Experimental and theoretical results are in good agreement

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Plasmonic properties of aluminum nanorings generated by double patterning

et al. 2012

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In this Letter we evaluate a technique for the efficient and flexible generation of aluminum nanorings based on double patterning and variable shaped electron beam lithography. The process is demonstrated by realizing nanorings with diameters down to 90 nm and feature sizes of 30 nm utilizing a writing speed of one ring per microsecond. Because of redepositions caused by involved etching processes, the material of the rings and, therefore, the impact on the plasmonic properties, are unknown. This issue, which is commonly encountered when metals are nanostructured, is solved by adapting a realistic simulation model that accounts for geometry details and effective material properties. Based on this model, the redepositions are quantified, the plasmonic properties are investigated, and a design tool for the very general class of nanofabrication techniques involving the etching of metals is provided.

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Optimization and characterization of a highly-efficient diffraction nanograting for MHz XUV pulses

Yang¹,

Süßmann²,

Zherebtsov³

et al. 2011

Opt. Express

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We designed, fabricated and characterized a nano-periodical highly-efficient blazed grating for extreme-ultraviolet (XUV) radiation. The grating was optimized by the rigorous coupled-wave analysis method (RCWA) and milled into the top layer of a highly-reflective mirror for IR light. The XUV diffraction efficiency was determined to be around 20% in the range from 35.5 to 79.2 nm. The effects of the nanograting on the reflectivity of the IR light and non-linear effects introduced by the nanograting have been measured and are discussed.

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H.‐J. Fuchs

High-power femtosecond Yb-doped fiber amplifier

Highly efficient transmission gratings in fused silica for chirped-pulse amplification systems

Diffractionless propagation of light in a low-index photonic-crystal film

Plasmonic properties of aluminum nanorings generated by double patterning

Optimization and characterization of a highly-efficient diffraction nanograting for MHz XUV pulses

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About

H.‐J. Fuchs

High-power femtosecond Yb-doped fiber amplifier

Highly efficient transmission gratings in fused silica for chirped-pulse amplification systems

Diffractionless propagation of light in a low-index photonic-crystal film

Plasmonic properties of aluminum nanorings generated by double patterning

Optimization and characterization of a highly-efficient diffraction nanograting for MHz XUV pulses

Contact Info

Product

Resources

About

Optimization and characterization of a highly-efficient diffraction nanograting for MHz XUV pulses