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Quadrupole transitions revealed by Borrmann spectroscopy

DOI: 10.1038/nature07099 DOI Help

Authors: R. F. Pettifer (University of Warwick) , D. Laundy (STFC Daresbury) , S. P. Collins (Diamond Light Source; University of Warwick)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Nature , VOL 454 (7201) , PAGES 196-199

State: Published (Approved)
Published: May 2008

Abstract: The Borrmann effect1, 2—a dramatic increase in transparency to X-ray beams—is observed when X-rays satisfying Bragg's law diffract through a perfect crystal. The minimization of absorption seen in the Borrmann effect has been explained by noting that the electric field of the X-ray beam approaches zero amplitude at the crystal planes, thus avoiding the atoms. Here we show experimentally that under conditions of absorption suppression, the weaker electric quadrupole absorption transitions are effectively enhanced to such a degree that they can dominate the absorption spectrum. This effect can be exploited as an atomic spectroscopy technique; we show that quadrupole transitions give rise to additional structure at the L1, L2 and L3 absorption edges of gadolinium in gadolinium gallium garnet, which mark the onset of excitations from 2s, 2p1/2 and 2p3/2 atomic core levels, respectively. Although the Borrmann effect served to underpin the development of the theory of X-ray diffraction3, 4, 5, 6, this is potentially the most important experimental application of the phenomenon since its first observation seven decades ago. Identifying quadrupole features in X-ray absorption spectroscopy is central to the interpretation of 'pre-edge' spectra, which are often taken to be indicators of local symmetry, valence and atomic environment7. Quadrupolar absorption isolates states of different symmetries to that of the dominant dipole spectrum, and typically reveals orbitals that dominate the electronic ground-state properties of lanthanides and 3d transition metals, including magnetism. Results from our Borrmann spectroscopy technique feed into contemporary discussions regarding resonant X-ray diffraction8 and the nature of pre-edge lines identified by inelastic X-ray scattering7. Furthermore, because the Borrmann effect has been observed in photonic materials, it seems likely that the quadrupole enhancement reported here will play an important role in modern optics

Subject Areas: Physics

Instruments: NONE-No attached Diamond beamline

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