X-ray dichroism in biaxial gyrotropic media: Differential absorption and fluorescence excitation spectra |
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Authors: | J Goulon C Goulon-Ginet A Rogalev V Gotte C Brouder C Malgrange |
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Institution: | (1) European Synchrotron Radiation Facility, B.P. 220, 38043 Grenoble Cedex, France, FR;(2) Laboratoire de Minéralogie Cristallographie (CNRS URA9), Universités Paris VI & VII, Tour 16, 4 place Jussieu, 75252 Paris Cedex 05, France, FR |
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Abstract: | The differential absorption and the differential change in the polarization state of an X-ray beam propagating inside a gyrotropic
crystal are described using a Müller matrix, the 16 elements of which are related to the anisotropic components of the multipolar polarizability tensors
at the absorbing site. Analytical expressions are given up to third order for X-ray linear and circular dichroism, X-ray optical
rotation and X-ray circular polarimetry in transmission. The same formalism is extended to discuss Fluorescence detected dichroism spectra with or without polarization analysis of the fluorescence. Fluorescence detected dichroism is strictly proportional to dichroism measured in the transmission geometry only for uniaxial crystals. In biaxial crystals,
the tiny effects of X-ray gyrotropy are swamped by large linear dichroism signals due to the imperfect polarization transfer
function of Bragg monochromators. Second order effects should also be taken into consideration. Our general formulation of
linear and circular dichroism includes terms of odd parity with respect to the action of the time reversal operator: such terms cannot contribute to natural dichroism but can be activated by a magnetic field. The terms responsible for X-ray magnetic circular dichroism are well
known but non-reciprocal X-ray gyrotropy effects are also predicted in magnetic crystals of appropriate symmetry.
Received 3 March 1999 |
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Keywords: | PACS 33 55 Ad Optical activity optical rotation circular dichroism - 41 50 +h X-ray beams and X-ray optics - 78 70 Dm X-ray absorption spectra |
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