B.B. Dhal scite author profile

We use the x-ray extended-range technique ͑XERT͒ ͓Chantler et al., Phys. Rev. A 64, 062506 ͑2001͔͒ to measure the mass attenuation coefficients of molybdenum in the x-ray energy range of 13.5-41.5 keV to 0.02-0.15 % accuracy. Measurements made over an extended range of the measurement parameter space are critically examined to identify, quantify, and correct where necessary a number of experimental systematic errors. These results represent the most extensive experimental data set for molybdenum and include absolute mass attenuation coefficients in the regions of the x-ray absorption fine structure ͑XAFS͒ and x-ray-absorption near-edge structure ͑XANES͒. The imaginary component of the atomic form-factor f 2 is derived from the photoelectric absorption after subtracting calculated Rayleigh and Compton scattering cross sections from the total attenuation. Comparison of the result with tabulations of calculated photoelectric absorption coefficients indicates that differences of 1-15 % persist between the calculated and observed values.

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Measurement of the x-ray mass attenuation coefficient and determination of the imaginary component of the atomic form factor of tin over the energy range of29–60keV

Jonge

Tran

Chantler

et al. 2007

Phys. Rev. A

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We use the x-ray extended-range technique ͑XERT͒ ͓C. T. Chantler et al., Phys. Rev. A 64, 062506 ͑2001͔͒ to measure the mass attenuation coefficients of tin in the x-ray energy range of 29-60 keV to 0.04-3 % accuracy, and typically in the range 0.1-0.2 %. Measurements made over an extended range of the measurement parameter space are critically examined to identify, quantify, and correct a number of potential experimental systematic errors. These results represent the most extensive experimental data set for tin and include absolute mass attenuation coefficients in the regions of x-ray absorption fine structure, extended x-ray absorption fine structure, and x-ray absorption near-edge structure. The imaginary component of the atomic form factor f 2 is derived from the photoelectric absorption after subtracting calculated Rayleigh and Compton scattering cross sections from the total attenuation. Comparison of the result with tabulations of calculated photoelectric absorption coefficients indicates that differences of 1 -2 % persist between calculated and observed values.

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Quantitative determination of major systematics in synchrotron x‐ray experiments: seeing through harmonic components

et al. 2003

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In line with an ongoing programme to determine accurately x-ray attenuation coefficients, we have developed a method for the quantitative determination of the effect on experimental results of monochromator harmonic components in a synchrotron beam. The technique can be adapted to suit a wide variety of experiments, and is of particular interest because it determines the effect of the harmonic components directly. This avoids the necessity for modelling and is therefore robust. Results of a direct determination of the effect of harmonic components illustrate the power of the technique. We extended the technique to quantify the effects of dark current-induced errors.

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B.B. Dhal

Fresnel Coherent Diffractive Imaging

X-ray phase imaging: Demonstration of extended conditions with homogeneous objects

Measurement of the x-ray mass attenuation coefficient and determination of the imaginary component of the atomic form factor of molybdenum over the13.5–41.5−keVenergy range

Measurement of the x-ray mass attenuation coefficient and determination of the imaginary component of the atomic form factor of tin over the energy range of29–60keV

Quantitative determination of major systematics in synchrotron x‐ray experiments: seeing through harmonic components

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