A two-dimensional waveguide beam for X-ray nanodiffraction

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Standard

A two-dimensional waveguide beam for X-ray nanodiffraction. / Krywka, Christina; Neubauer, Henrike; Priebe, Marius et al.
in: Journal of applied crystallography, Jahrgang 45.20212 , Nr. Part 1, 2012, S. 85-92.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Krywka, C, Neubauer, H, Priebe, M, Salditt, T, Keckes, J, Buffet, A, Roth, SV, Doehrmann, R & Mueller, M 2012, 'A two-dimensional waveguide beam for X-ray nanodiffraction', Journal of applied crystallography, Jg. 45.20212 , Nr. Part 1, S. 85-92. https://doi.org/10.1107/S0021889811049132

APA

Krywka, C., Neubauer, H., Priebe, M., Salditt, T., Keckes, J., Buffet, A., Roth, S. V., Doehrmann, R., & Mueller, M. (2012). A two-dimensional waveguide beam for X-ray nanodiffraction. Journal of applied crystallography, 45.20212 (Part 1), 85-92. https://doi.org/10.1107/S0021889811049132

Vancouver

Krywka C, Neubauer H, Priebe M, Salditt T, Keckes J, Buffet A et al. A two-dimensional waveguide beam for X-ray nanodiffraction. Journal of applied crystallography. 2012;45.20212 (Part 1):85-92. doi: https://doi.org/10.1107/S0021889811049132

Author

Krywka, Christina ; Neubauer, Henrike ; Priebe, Marius et al. / A two-dimensional waveguide beam for X-ray nanodiffraction. in: Journal of applied crystallography. 2012 ; Jahrgang 45.20212 , Nr. Part 1. S. 85-92.

Bibtex - Download

@article{73ba3f204d8e400bb260a1359473f29c,
title = "A two-dimensional waveguide beam for X-ray nanodiffraction",
abstract = "The micro- and nanofocus X-ray scattering (MINAXS) beamline of PETRA III is equipped with two consecutively arranged endstations, the last of which is the nanofocus endstation. The first in-beam commissioning of the experimental equipment was successfully performed at the end of 2010, using two-dimensionally confining hard X-ray silicon waveguides with cross sections of 50 nm × 50 µm to 50 nm × 2 µm for nanobeam generation. A full characterization of the waveguide-generated beams was performed, giving values for the beam geometries, the transmission efficiencies of the waveguides and absolute fluxes. Along with these results a detailed description of the setup is presented in this paper. A first high-resolution nanodiffraction experiment on a nanocrystalline TiN hard coating was performed to verify the resolution of the nanodiffraction setup and to reveal the local gradients across the blasted TiN coating. In conclusion, the main concern is the availability of the nanobeam, how it was generated and the fact that a beam out of a two-dimensionally confining waveguide was used for diffraction experiments for the first time.",
author = "Christina Krywka and Henrike Neubauer and Marius Priebe and Tim Salditt and Jozef Keckes and Adeline Buffet and Roth, {Stephan Volkher} and Ralph Doehrmann and Martin Mueller",
year = "2012",
doi = "https://doi.org/10.1107/S0021889811049132",
language = "English",
volume = "45.20212 ",
pages = "85--92",
journal = "Journal of applied crystallography",
issn = "0021-8898",
publisher = "International Union of Crystallography",
number = "Part 1",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - A two-dimensional waveguide beam for X-ray nanodiffraction

AU - Krywka, Christina

AU - Neubauer, Henrike

AU - Priebe, Marius

AU - Salditt, Tim

AU - Keckes, Jozef

AU - Buffet, Adeline

AU - Roth, Stephan Volkher

AU - Doehrmann, Ralph

AU - Mueller, Martin

PY - 2012

Y1 - 2012

N2 - The micro- and nanofocus X-ray scattering (MINAXS) beamline of PETRA III is equipped with two consecutively arranged endstations, the last of which is the nanofocus endstation. The first in-beam commissioning of the experimental equipment was successfully performed at the end of 2010, using two-dimensionally confining hard X-ray silicon waveguides with cross sections of 50 nm × 50 µm to 50 nm × 2 µm for nanobeam generation. A full characterization of the waveguide-generated beams was performed, giving values for the beam geometries, the transmission efficiencies of the waveguides and absolute fluxes. Along with these results a detailed description of the setup is presented in this paper. A first high-resolution nanodiffraction experiment on a nanocrystalline TiN hard coating was performed to verify the resolution of the nanodiffraction setup and to reveal the local gradients across the blasted TiN coating. In conclusion, the main concern is the availability of the nanobeam, how it was generated and the fact that a beam out of a two-dimensionally confining waveguide was used for diffraction experiments for the first time.

AB - The micro- and nanofocus X-ray scattering (MINAXS) beamline of PETRA III is equipped with two consecutively arranged endstations, the last of which is the nanofocus endstation. The first in-beam commissioning of the experimental equipment was successfully performed at the end of 2010, using two-dimensionally confining hard X-ray silicon waveguides with cross sections of 50 nm × 50 µm to 50 nm × 2 µm for nanobeam generation. A full characterization of the waveguide-generated beams was performed, giving values for the beam geometries, the transmission efficiencies of the waveguides and absolute fluxes. Along with these results a detailed description of the setup is presented in this paper. A first high-resolution nanodiffraction experiment on a nanocrystalline TiN hard coating was performed to verify the resolution of the nanodiffraction setup and to reveal the local gradients across the blasted TiN coating. In conclusion, the main concern is the availability of the nanobeam, how it was generated and the fact that a beam out of a two-dimensionally confining waveguide was used for diffraction experiments for the first time.

U2 - https://doi.org/10.1107/S0021889811049132

DO - https://doi.org/10.1107/S0021889811049132

M3 - Article

VL - 45.20212

SP - 85

EP - 92

JO - Journal of applied crystallography

JF - Journal of applied crystallography

SN - 0021-8898

IS - Part 1

ER -