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The new third-generation synchrotron radiation source PETRA III located at the Deutsches Elektronen-Synchrotron DESY in Hamburg, Germany, has been operational since the second half of 2009. PETRA III… Expand
An Overview of X-Ray Scattering and Diffraction Theory and Techniques, Oliver H. Seeck Scattering and Diffraction Beamlines at Synchrotron Radiation Sources, Oliver H. Seeck Micro- and… Expand
Thin films of PbTiO3, a classical ferroelectric, have been grown under tensile strain on single-crystal substrates of DyScO3. The films, of only 5 nm thickness, grow fully coherent with the… Expand
By providing the capabilities for high-resolution, high-energy and time-resolved powder X-ray diffraction, beamline P02.1 is a versatile tool to tackle various problems in materials science,… Expand
Hydrophobins are small proteins that function in the growth and development of fungi. The structures of class II hydrophobins HFBI and HFBII from Trichoderma reesei were studied using grazing… Expand
At present, the storage ring DORIS III (4.5 GeV, 150 mA) serves as the main source for synchrotron radiation experiments at DESY. DORIS III is a second generation storage ring with a rather large… Expand
The PETRA IV project aims at upgrading PETRA III into an ultralow-emittance synchrotron radiation source.
The surfaces of thermally annealed thin polystyrene films on silicon were investigated by specular and diffuse x-ray scattering. The data cannot be interpreted satisfactorily with capillary wave… Expand
We have designed a novel, dedicated diffractometer for surface x‐ray scattering studies of liquid—liquid and liquid‐gas interfaces for the PETRA III High Resolution Diffraction Beamline. Using a… Expand
Crystal nucleation and growth at a liquid–liquid interface is studied on the atomic scale by in situ Å-resolution X-ray scattering methods for the case of liquid Hg and an electrochemical dilute… Expand