U. Neuhäusler scite author profile

Summary Current wet chemical methods for the speciation of sulphur (S) in soils are inaccurate and do not allow one to assess the S speciation of individual soil particles and colloids. X‐ray microscopy and Near Edge X‐ray Absorption Fine structure Spectroscopy (NEXAFS) can be used to study individual species of S at the K‐adsorption edge. We have used these techniques to identify and quantify S species in bulk soil, soil particles and colloids from Oh and Bh horizons of two forested Podzols. The partitioning of soil sulphur as determined on bulk samples of the Oh horizons by X‐ray spectromicroscopy agreed fairly well with the results of a conventional S speciation for the soil at Schluchsee, and reasonably well for that at Rotherdbach. The NEXAFS analyses on individual soil particles revealed that they are richer in reduced organic sulphur than the bulk soil for the Schluchsee Oh and richer in sulphate for Rotherdbach Oh. The techniques can be used reliably to separate and quantify sulphur species with different oxidation states in the soil. The combination of X‐ray transmission and sulphur fluorescence images with unfocused and focused NEXAFS spectra at the K‐adsorption edge of sulphur at specific microsites allowed us to compare the distribution of S species in bulk soil with that of distinct soil particles and soil colloids. Moreover, we can use it to assess the spatial distribution of different S species on soil particles on a scale of a few hundred nanometres.

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X-ray microscopy in Zernike phase contrast mode at 4 keV photon energy with 60 nm resolution

Neuhäusler¹,

Schneider²,

Ludwig³

et al. 2003

J. Phys. D: Appl. Phys.

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We report on x-ray microscopy of advanced microelectronic devices imaged in Zernike-type phase contrast mode at 4 keV photon energy. Fresnel zone plates were used as high resolution x-ray objectives providing 60 nm spatial resolution. Integrated circuit copper interconnect structures were imaged in positive as well as negative phase contrast. In both cases the phase contrast in the x-ray images is about five times higher than the pure absorption contrast.

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Soft X-ray spectromicroscopy on solid-stabilized emulsions

Neuhäusler¹,

Abend

Jacobsen³

et al. 1999

Colloid & Polymer Science

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Design, fabrication, and analysis of chirped multilayer mirrors for reflection of extreme-ultraviolet attosecond pulses

et al. 2006

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Chirped Mo/Si multilayer coatings have been designed, fabricated, and characterized for use in extreme-ultraviolet attosecond experiments. By numerically simulating the reflection of the attosecond pulse from a multilayer mirror during the optimization procedure based on a genetic algorithm, we obtain optimized layer designs. We show that normal incidence chirped multilayer mirrors capable of reflecting pulses of approximately 100 attoseconds (as) duration can be designed by enhancing the reflectivity bandwidth and optimizing the phase-shift behavior. The chirped multilayer coatings have been fabricated by electron-beam evaporation in an ultrahigh vacuum in combination with ion-beam polishing of the interfaces and in situ reflectivity measurement for layer thickness control. To analyze the aperiodic layer structure by hard-x-ray reflectometry, we have developed an automatic fitting procedure that allows us to determine the individual layer thicknesses with an error of less than 0.05 nm. The fabricated chirped mirror may be used for production of 150-160 as pulses.

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A specimen chamber for soft X-ray spectromicroscopy on aqueous and liquid samples

Neuhäusler

Jacobsen

Schulze

et al. 2000

J Synchrotron Radiat

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U. Neuhäusler

Speciation of sulphur in soils and soil particles by X‐ray spectromicroscopy

X-ray microscopy in Zernike phase contrast mode at 4 keV photon energy with 60 nm resolution

Soft X-ray spectromicroscopy on solid-stabilized emulsions

Design, fabrication, and analysis of chirped multilayer mirrors for reflection of extreme-ultraviolet attosecond pulses

A specimen chamber for soft X-ray spectromicroscopy on aqueous and liquid samples

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