Effect of Thermal Diffuse Scattering in Triple-Crystal Diffractometry with High-Energy Synchrotron Radiation

Using high‐energy synchrotron radiation, structure factors were measured on the triple‐axis diffractometer at the HASYLAB beamline BW5. A data set for cuprite, Cu2O, was recorded, and the excellent data quality [internal consistency Rint(F2) = 0.0055] allowed full multipole refinements using the program VALRAY. Extinction was still significant, but small. Using data measured at 75, 100, 125 and 150 keV photon energies, it was possible to determine and separate extinction prior to the refinements. After evaluation and comparison of extinction‐affected and extinction‐free data, significant differences in the electron densities were found.

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“…A detailed investigation of TDS using high-energy synchrotron radiation has been presented by Schmidt et al (1998).…”

Section: Data Reductionmentioning

confidence: 99%

Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu₂O

Lippmann

Schneider

2000

J Appl Cryst

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“…In the present work a focusing Laue diffractometer is used to analyze the strain generated by growing BMDs in CZ grown semiconductor silicon. This method is called SFD setup and works, in contrast to beam lines at neutron or synchrotron facilities 3–6, with polychromatic and divergent beams in a laboratory 7. By using appropriate thermal treatments major features of the diffraction curves can be linked with parameters of BMDs which are gained by conventional analytic techniques.…”

Section: Discussionmentioning

confidence: 99%

X‐ray in situ observation of oxygen precipitation in silicon confirmed with ex situ detection methods

Grillenberger

Knerer²,

Magerl

2010

Physica Status Solidi (a)

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A focusing Laue diffractometer is used to analyze the strain field in silicon. The source for this so called strain field diffraction (SFD) setup is a high energy X‐ray tube. In the present work this setup is used to monitor the strain generated by growing oxygen precipitates (Bulk Micro Defects, BMDs) in situ at temperatures up to 1000 °C. By choosing appropriate thermal treatments a correlation of the SFD signal with BMD parameters gained with conventional analytic techniques (FT‐IR, infra red light scattering, TEM) is established. From this, the detection limit of the SFD setup for BMDs is determined at a diameter of 7 nm and a density of 1013 cm−3. This range is only covered by TEM so far. Further, the diffracted intensity provides a measure for the level of precipitation occurred.

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“…This has been shown for neutrons [3,4] and for synchrotron radiation (e.g. [5,6]) by assigning changes of the diffraction behavior of a silicon sample to its internal defect structure via the characteristic strain field [2].…”

Section: Introductionmentioning

confidence: 94%

“…This is in contrast to the publications based on synchrotron radiation which is collimated and used in a monochromatic mode (e.g. [5,6]). Using a focusing Laue diffractometer to analyze BMDs via the effect of their strain fields on the intensity of a Bragg peak of the silicon host material will be referred to as strain field diffraction (SFD) in the following.…”

Section: Introductionmentioning

confidence: 95%

In situ observation of formation and growth of oxygen nano-precipitates in silicon with high energy X-rays from a laboratory source

Grillenberger

Knerer²,

Magerl

2011

Journal of Crystal Growth

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Effect of Thermal Diffuse Scattering in Triple-Crystal Diffractometry with High-Energy Synchrotron Radiation

Cited by 6 publications

References 8 publications

Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu₂O

Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu₂O

X‐ray in situ observation of oxygen precipitation in silicon confirmed with ex situ detection methods

In situ observation of formation and growth of oxygen nano-precipitates in silicon with high energy X-rays from a laboratory source

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Effect of Thermal Diffuse Scattering in Triple-Crystal Diffractometry with High-Energy Synchrotron Radiation

Cited by 6 publications

References 8 publications

Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu2O

Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu2O

X‐ray in situ observation of oxygen precipitation in silicon confirmed with ex situ detection methods

In situ observation of formation and growth of oxygen nano-precipitates in silicon with high energy X-rays from a laboratory source

Contact Info

Product

Resources

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Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu₂O

Accurate structure-factor measurements using high-energy synchrotron radiation: a test on cuprite, Cu₂O