57Fe polarization-dependent synchrotron Mössbauer spectroscopy using a diamond phase plate and an iron borate nuclear Bragg monochromator

Energy-domain 57Fe polarization-dependent synchrotron radiation Mössbauer spectroscopy was developed by using a diamond X-ray phase plate and an iron borate nuclear Bragg monochromator. The former controls the polarization of the incident synchrotron radiation X-rays and the latter filters the 57Fe-Mössbauer radiation with a narrow bandwidth of ∼3.4 Γ0 (Γ0 ≃ 4.7 neV: natural linewidth of the 57Fe nucleus) from the broadband synchrotron radiation. The developed nuclear diffraction optics allowed 57Fe-Mössbauer studies to be performed with various polarization states, i.e. linear polarization, circular polarization and non-polarization. In this paper, the spectrometer system, beam characterization, performance-test experiments and a grazing-incidence Mössbauer measurement of an isotope-enriched (57Fe: 95%) iron thin film are described.
Source: Journal of Synchrotron Radiation - Category: Physics Authors: Tags: M ö ssbauer spectroscopy diamond phase plate nuclear Bragg reflection   monochromator polarization analysis circular dichroism grazing incidence research papers Source Type: research
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