Renate Fechner scite author profile

Ion beam erosion can be used as a process for achieving surface smoothing at microscopic length scales and for the preparation of ultrasmooth surfaces, as an alternative to nanostructuring of various surfaces via self-organization. This requires that in the evolution of the surface topography different relaxation mechanisms dominate over the roughening, and smoothing of initially rough surfaces can occur. This contribution focuses on the basic mechanisms as well as potential applications of surface smoothing using low energy ion beams. In the first part, the fundamentals for the smoothing of III/V semiconductors, Si and quartz glass surfaces using low energy ion beams (ion energy: ≤2000 eV) are reviewed using examples. The topography evolution of these surfaces with respect to different process parameters (ion energy, ion incidence angle, erosion time, sample rotation) has been investigated. On the basis of the time evolution of different roughness parameters, the relevant surface relaxation mechanisms responsible for surface smoothing are discussed. In this context, physical constraints as regards the effectiveness of surface smoothing by direct ion bombardment will also be addressed and furthermore ion beam assisted smoothing techniques are introduced. In the second application-orientated part, recent technological developments related to ion beam assisted smoothing of optically relevant surfaces are summarized. It will be demonstrated that smoothing by direct ion bombardment in combination with the use of sacrificial smoothing layers and the utilization of appropriate broad beam ion sources enables the polishing of various technologically important surfaces down to 0.1 nm root mean square roughness level, showing great promise for large area surface processing. Specific examples are given for ion beam smoothing of different optical surfaces, especially for substrates used for advanced optical applications (e.g., in x-ray optics and components for extreme ultraviolet lithography).

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Ultra-precision surface finishing by ion beam and plasma jet techniques—status and outlook

Arnold

Böhm

Fechner

et al. 2010

Nuclear Instruments and Methods in Physics Research Section A:

177

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High-efficiency, broad band, high-damage threshold high-index gratings for femtosecond pulse compression

Canova¹,

Clady²,

Chambaret³

et al. 2007

Opt. Express

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High efficiency, broad-band TE-polarization diffraction over a wavelength range centered at 800 nm is obtained by high index gratings placed on a non-corrugated mirror. More than 96% efficiency wide band top-hat diffraction efficiency spectra, as well as more than 1 J/cm(2) damage threshold under 50 fs pulses are demonstrated experimentally. This opens the way to high-efficiency Chirped Pulse Amplification for high average power laser machining by means of all-dielectric structures as well as for ultra-short high energy pulses by means of metal-dielectric structures.

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Large area smoothing of optical surfaces by low-energy ion beams

et al. 2004

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<title>Ion beam and plasma jet etching for optical component fabrication</title>

Schindler

Haensel

Flamm

et al. 2001

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Renate Fechner

Large area smoothing of surfaces by ion bombardment: fundamentals and applications

Ultra-precision surface finishing by ion beam and plasma jet techniques—status and outlook

High-efficiency, broad band, high-damage threshold high-index gratings for femtosecond pulse compression

Large area smoothing of optical surfaces by low-energy ion beams

<title>Ion beam and plasma jet etching for optical component fabrication</title>

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