Scanning X-ray microdiffraction with submicrometer white beam for strain/stress and orientation mapping in thin films.
Nobumichi Tamura,Alastair A. MacDowell,Ralph Spolenak,B. C. Valek,John C. Bravman,W. L. Brown,Richard Celestre,Howard A. Padmore,B. W. Batterman,J. R. Patel +9 more
TLDR
Scanning X-ray microdiffraction (microSXRD) combines the use of high-brilliance synchrotron sources with the latest achromaticX-ray focusing optics and fast large-area two-dimensional-detector technology to study thin aluminium and copper blanket films and lines following electromigration testing and/or thermal cycling experiments.Abstract:
Scanning X-ray microdiffraction (µSXRD) combines the use of high-brilliance synchrotron sources with the latest achromatic X-ray focusing optics and fast large-area two-dimensional-detector technology. Using white beams or a combination of white and monochromatic beams, this technique allows for the orientation and strain/stress mapping of polycrystalline thin films with submicrometer spatial resolution. The technique is described in detail as applied to the study of thin aluminium and copper blanket films and lines following electromigration testing and/or thermal cycling experiments. It is shown that there are significant orientation and strain/stress variations between grains and inside individual grains. A polycrystalline film when investigated at the granular (micrometer) level shows a highly mechanically inhomogeneous medium that allows insight into its mesoscopic properties. If the µSXRD data are averaged over a macroscopic range, results show good agreement with direct macroscopic texture and stress measurements.read more
Citations
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Flexible film systems: Current understanding and future prospects
TL;DR: The electrical and mechanical properties of metal films on polymer Substrates are of interest for use inflexible electronic devices and sensors as discussed by the authors, but the influence of the Substrate and the Interface on the film properties is yet to be fully understood.
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Imaging Anomalous Nematic Order and Strain in Optimally Doped BaFe_{2}(As,P)_{2}.
Eric Thewalt,Eric Thewalt,Ian Hayes,Ian Hayes,James Hinton,James Hinton,A. Little,A. Little,Shreyas Patankar,Shreyas Patankar,Liang Wu,Liang Wu,Toni Helm,Toni Helm,Camelia V. Stan,Nobumichi Tamura,James Analytis,James Analytis,Joseph Orenstein,Joseph Orenstein +19 more
TL;DR: The results indicate that nematic order arises in a genuine phase transition rather than by enhancement of local anisotropy by a strong nematic susceptibility.
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Nanoscale elastic strain mapping of polycrystalline materials
Paul F. Rottmann,Kevin J. Hemker +1 more
TL;DR: In this article, the elastic strain with nanoscale resolution has been measured by using precession electron diffraction (PEF) and it has been shown that PEF provides excellent performance.
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Thermomechanical strain measurements by synchrotron x-ray diffraction and data interpretation for through-silicon vias
Xi Liu,Paragkumar A. Thadesar,Christine Taylor,Martin Kunz,Nobumichi Tamura,Muhannad S. Bakir,Suresh K. Sitaraman +6 more
TL;DR: In this article, a data interpretation method based on beam intensity averaging is proposed and validated with measurements, which is applicable to XRD strain measurements on thin as well as thick samples.
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Crystal Structure of an Indigo@Silicalite Hybrid Related to the Ancient Maya Blue Pigment
Catherine Dejoie,Pauline Martinetto,Nobumichi Tamura,Martin Kunz,Florence Porcher,Patrice Bordat,Ross Brown,Eric Dooryhee,Michel Anne,Lynne B. McCusker +9 more
TL;DR: The structure of indigo@silicalite pigment, an analog of ancient Maya Blue, has been determined by combining X-ray Laue microdiffraction and powder diffraction techniques as mentioned in this paper.
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